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One of the biggest existential challenges that transhumanists face is that most people don’t believe a word we’re saying, however entertaining they may find us. They think we’re fantasists when in fact we’re talking about a future just over the horizon. Suppose they’re wrong and we are right. What follows? Admittedly, we won’t know this until we inhabit that space ‘just over the horizon’. Nevertheless, it’s not too early to discuss how these naysayers will be regarded, perhaps as a guide to how they should be dealt with now.

So let’s be clear about who these naysayers are. They hold the following views:

1) They believe that they will live no more than 100 years and quite possibly much less.
2) They believe that this limited longevity is not only natural but also desirable, both for themselves and everyone else.
3) They believe that the bigger the change, the more likely the resulting harms will outweigh the benefits.

Now suppose they’re wrong on all three counts. How are we to think about such beings who think this way? Aren’t they the living dead? Indeed. These are people who live in the space of their largely self-imposed limitations, which function as a self-fulfilling prophecy. They are programmed for destruction – not genetically but intellectually. Someone of a more dramatic turn of mind would say that they are suicide bombers trying to manufacture a climate of terror in humanity’s existential horizons. They roam the Earth as death-waiting-to-happen. This much is clear: If you’re a transhumanist, ordinary people are zombies.

Zombies are normally seen as either externally revived corpses or bodies in a state between life and death – what Catholics call ‘purgatory’. In both cases, they remain on Earth beyond their will. So how does one deal with zombies, especially when they are the majority of the population? There are three general options:

1) You kill them, once and for all.
2) You avoid them.
3) You enable them to be fully alive.

The decision here is not as straightforward as it might seem because the prima facie easiest option (2) requires that there are no resource implications. But of course, zombies require living humans (i.e. potential transhumans) in order to exist in the manner they do, which in turn makes the zombies dangerous; hence (1) has always proved such an attractive option for dealing with zombies. After all, it is difficult to dedicate the resources needed to secure the transhumanist goal of indefinite longevity, if there are zombies trying to anchor your existential horizons in the present to make their own lives as easy as possible.

This kind of problem normally arises in the context of ecological sustainability as ‘care for future generations’: Our greedy habits of mass consumption blind us to the long-term damage it does to the environment. However, the relevant sense of ‘care’ in the transhumanist case relates to sustaining the investment base needed to reach a state of indefinite longevity. It may require diverting public resources from seemingly more pressing needs, such as having a strong national defence — as the US Transhumanist Party presidential candidate Zoltan Istvan thinks. It is certainly true that if people routinely lived indefinitely, then the existential character of ‘the horror of war’ would be considerably reduced, which may in turn decrease both the likelihood and cost of war. Well, maybe…

So what about option (3), which is probably the one that most of us would find most palatable, at least in principle?

Here there is a serious public relations problem, one not so different from development aid workers trying to persuade ‘underdeveloped’ peoples that their lives would be appreciably improved by allowing their societies to be radically re-structured so as to double their life expectancy from 40 to 80. While such societies are by no means perfect and may require significant change to deliver what they promise their members, nevertheless the doubling of life expectancy would mean a radical shift in the rhythm of their individual and collective life cycles – which could prove quite threatening to their sense of identity.

Of course, the existential costs suggested here may be overstated, especially in a world where even poor people have decent access to more global trends. Nevertheless the chequered history of development aid since the formal end of Imperialism suggests that there is little political will – at least on the part of Western nations — to invest the human and financial capital needed to persuade people in developing countries that greater longevity is in their own long-term interest, and not simply a pretext to have them work longer for someone else.

The lesson for us lies in the question: How can we persuade people that extending their lives is qualitatively different from simply extending their zombiehood?

Washington, DC (PRWEB) June 30, 2015

Another 2.3 billion people are expected to be added to the planet in just 35 years. “By 2050, new systems for food, water, energy, education, health, economics, and global governance will be needed to prevent massive and complex human and environmental disasters,” explains Jerome Glenn, CEO of The Millennium Project. As Pope Francis said in His Encyclical Letter, “Halfway measures simply delay the inevitable disaster.”

The “2015−16 State of the Future” reviews the global situation and future prospects in a broad range of areas from environment to business and technology, and global ethics. Its executive summary states that:

“The Millennium Project’s futures research shows that most of these problems are preventable and a far better future than today is possible. Brilliant insights, policy and social innovations, scientific and technological breakthroughs, and new kinds of leadership are emerging around the world. The interactions among future artificial intelligences, countless new lifeforms from synthetic biology, proliferation of nano-molecular assemblies, and robotics could produce a future barely recognizable to science fiction today.

The future can be much better than most pessimists understand, but it could also be far worse than most optimists are willing to explore. We need serious, coherent, and integrated understandings of mega-problems and opportunities to identify and implement strategies on the scale necessary to address global challenges. This report should be used as a reference to further that understanding.”

The “2015−16 State of the Future” contains sections on 15 Global Challenges, a State of the Future Index that assesses where humanity is winning and losing, and a special study on “Future Work/Technology 2050.”

“After 18 years of producing the “State of the Future” reports, it is increasingly clear that humanity has the resources to address its global challenges,” says Elizabeth Florescu, Director of Research for The Millennium Project, “but it is not clear that an integrated set of global and local strategies will be implemented together timely enough and on the scale necessary to build a better future.”

The Millennium Project is a global participatory think tank connecting 56 Nodes around the world that identify important long-range challenges and strategies, and initiate and conduct foresight studies, workshops, symposiums, and advanced training. Its mission is to improve thinking about the future and make it available through a variety of media for feedback to accumulate wisdom about the future for better decisions today. It produces the annual “State of the Future” reports, the “Futures Research Methodology” series, the Global Futures Intelligence System (GFIS), and special studies. Over 4,500 futurists, scholars, business planners, and policy makers who work for international organizations, governments, corporations, NGOs, and universities have participated in The Millennium Project’s research since its inception, in 1992. The Millennium Project was selected among the top ten think tanks in the world for new ideas and paradigms by the 2013 and 2014 University of Pennsylvania’s GoTo Think Tank Index, and 2012 Computerworld Honors Laureate for its contributions to collective intelligence systems.

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Unknown

“The evidence is incontrovertible that recent extinction rates are unprecedented in human history and highly unusual in Earth’s history. Our analysis emphasizes that our global society has started to destroy species of other organisms at an accelerating rate, initiating a mass extinction episode unparalleled for 65 million years. If the currently elevated extinction pace is allowed to continue, humans will soon (in as little as three human lifetimes) be deprived of many biodiversity benefits.”

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Unknown

“Canada’s domestic digital divide, with the North as its epicenter, has been a point of growing concern over the last several years. Much of the internet in the northernmost regions of the country is still beamed down by satellites, but a plan to link Europe and Asia with fiber optic cable via Nunavut is currently being negotiated by a Toronto-based company called Arctic Fibre.”

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https://vimeo.com/91648619

“Living Breakwaters is a comprehensive design for coastal resiliency along the Northeastern Seaboard of the United States and beyond. This approach to climate change adaptation and flood mitigation includes the deployment of innovative, layered ecologically-engineered breakwaters, the strengthening of biodiversity and coastal habitats through “reef streets”, the nurturing and resuscitation of fisheries and historic livelihoods, and deep community engagement through diverse partnerships and innovative educational programs. The transformative educational dimension amplifies impact to the next generation of shoreline stewards while leveraging the expertise of the members of the SCAPE Architecture team, who are making groundbreaking inroads into state and federal agencies, setting new precedents for multi-layered and systemic approaches to infrastructure planning.”

LINK: Governor Cuomo Announces Living Breakwaters Project Launch

Article: Harnessing “Black Holes”: The Large Hadron Collider – Ultimate Weapon of Mass Destruction

Posted in astronomy, big data, computing, cosmology, energy, engineering, environmental, ethics, existential risks, futurism, general relativity, governance, government, gravity, information science, innovation, internet, journalism, law, life extension, media & arts, military, nuclear energy, nuclear weapons, open source, particle physics, philosophy, physics, policy, posthumanism, quantum physics, science, security, singularity, space, space travel, supercomputing, sustainability, time travel, transhumanism, transparency, treatiesTagged , , , , , , , , , , , , | Leave a Comment on Article: Harnessing “Black Holes”: The Large Hadron Collider – Ultimate Weapon of Mass Destruction

Harnessing “Black Holes”: The Large Hadron Collider – Ultimate Weapon of Mass Destruction

Why the LHC must be shut down

CERN-Critics: LHC restart is a sad day for science and humanity!

Posted in astronomy, big data, complex systems, computing, cosmology, energy, engineering, ethics, existential risks, futurism, general relativity, governance, government, gravity, hardware, information science, innovation, internet, journalism, law, life extension, media & arts, military, nuclear energy, nuclear weapons, particle physics, philosophy, physics, policy, quantum physics, science, security, singularity, space, space travel, supercomputing, sustainability, time travel, transhumanism, transparency, treatiesTagged , , , , , , , , | 1 Comment on CERN-Critics: LHC restart is a sad day for science and humanity!

PRESS RELEASE “LHC-KRITIK”/”LHC-CRITIQUE” www.lhc-concern.info
CERN-Critics: LHC restart is a sad day for science and humanity!
These days, CERN has restarted the world’s biggest particle collider, the so-called “Big Bang Machine” LHC at CERN. After a hundreds of Million Euros upgrade of the world’s biggest machine, CERN plans to smash particles at double the energies of before. This poses, one would hope, certain eventually small (?), but fundamentally unpredictable catastrophic risks to planet Earth.
Basically the same group of critics, including Professors and Doctors, that had previously filed a law suit against CERN in the US and Europe, still opposes the restart for basically the same reasons. Dangers of: (“Micro”-)Black Holes, Strangelets, Vacuum Bubbles, etc., etc. are of course and maybe will forever be — still in discussion. No specific improvements concerning the safety assessment of the LHC have been conducted by CERN or anybody meanwhile. There is still no proper and really independent risk assessment (the ‘LSAG-report’ has been done by CERN itself) — and the science of risk research is still not really involved in the issue. This is a scientific and political scandal and that’s why the restart is a sad day for science and humanity.
The scientific network “LHC-Critique” speaks for a stop of any public sponsorship of gigantomanic particle colliders.
Just to demonstrate how speculative this research is: Even CERN has to admit, that the so called “Higgs Boson” was discovered — only “probably”. Very probably, mankind will never find any use for the “Higgs Boson”. Here we are not talking about the use of collider technology in medical concerns. It could be a minor, but very improbable advantage for mankind to comprehend the Big Bang one day. But it would surely be fatal – how the Atomic Age has already demonstrated — to know how to handle this or other extreme phenomena in the universe.
Within the next Billions of years, mankind would have enough problems without CERN.
Sources:
- A new paper by our partner “Heavy Ion Alert” will be published soon: http://www.heavyionalert.org/
- Background documents provided by our partner “LHC Safety Review”: http://www.lhcsafetyreview.org/

- Press release by our partner ”Risk Evaluation Forum” emphasizing on renewed particle collider risk: http://www.risk-evaluation-forum.org/newsbg.pdf

- Study concluding that “Mini Black Holes” could be created at planned LHC energies: http://phys.org/news/2015-03-mini-black-holes-lhc-parallel.html

- New paper by Dr. Thomas B. Kerwick on lacking safety argument by CERN: http://vixra.org/abs/1503.0066

- More info at the LHC-Kritik/LHC-Critique website: www.LHC-concern.info
Best regards:
LHC-Kritik/LHC-Critique

One of the things that I’ve always liked about Star Trek, is the concept of a galaxy spanning civilization. I would expect that before we ever get to that point, we will have a civilization that spans our solar system. Having a solar system spanning civilization has many advantages. It would give us access to resources many times greater than what is found here on Earth. It also provides the opportunity for civilization to expand, and in a worst case scenario, help ensure the survival of humanity.

Millions of people living in spacious environmentally controlled cities on planetary surfaces and in rotating cylinders in free space, with industry that extends from Mercury to the comets is to me, a grand vision worthy of an ambitious civilization. But trying to make that vision a reality will be difficult. The International Space Station has the capacity to house just six people and cost approximately $100B to put in place. With a little simple division, that works out to about $17B per inhabitant! If we used that admittedly crude figure, it would cost $17 trillion to build a 1,000 person habitat in Earth orbit. Clearly, the approach we used to build the ISS will not work for building a solar system civilization!

The ISS model relies on building everything on Earth, and launching it into space. A different model championed by Dr. Philip Metzger, would develop industrial capacity in space, using resources close to home, such as from the Moon. This has the potential to greatly reduce the cost of building and maintaining systems in space. But how to develop that industrial capacity? Remember we can’t afford to launch and house thousands of workers from Earth. The answer it would seem, is with advanced robotics and advanced manufacturing.

But is even this possible? The good news is that advanced robotics and advanced manufacturing are already being rapidly developed here on Earth. The driver for this development is economics, not space. These new tools will still have to be modified to work in the harsh environment of space, and with resources that are different from what are commonly used here on Earth. While learning to adapt those technologies to the Moon and elsewhere in the solar system is not trivial, it is certainly better that having to develop them from scratch!

Advanced robots are already having a very positive impact on our economy and play a significant role in what is referred to as next shoring. Next shoring is the move to bring manufacturing closer to the customer. For U.S. customers, that means the return of manufacturing to the U.S. This only makes business sense if the manufacturing costs are as low or lower here, than elsewhere. It is evident that the labor share of manufacturing is lower in those countries that have a high degree of automation. We are getting closer and closer to the cost of materials and transportation being the main drivers in manufactured goods. This is just what we would like to see happen for our solar system civilization. Developing materials and transportation systems from local resources through automation will drive down the cost of opening up the solar system.

While this is great news for developing space, there are implications for our terrestrial civilization. Remember the push for automation in manufacturing isn’t driven by a space need, it is driven by Earthly economics. That means getting to market faster with a better product and at a lower cost. The implication to our terrestrial civilization is twofold. First, manufacturing corporations see greater productivity per employee. This makes sense in that you can increase productivity by adding robots while maintaining or even reducing the workforce. This equates to greater profits and happier shareholders! The downside of that increased productivity however, is a reduction in job growth, if not an outright decline. The very technologies that will make a solar system civilization possible may very well stifle the job market here.

Are people worried about this? You bet they are! This issue became apparent at the 2015 SXSW Festival in Texas. At that event a protest (a staged marketing stunt as reported in IO9) to “stop the robots,” occurred. Much to the surprise of the organizers, this protest generated a lot more attention than they planned, and was picked up by multiple news organizations. It would seem that this interest is driven by very real personal concerns that people have about losing jobs to robots.

Now this is where things get interesting. Economics is driving the development of advanced robots. These advanced robots enable space development but can potentially hurt the job market. From a systems viewpoint, we cannot champion the arrival of advanced robots as a boon for both industry and space development, without considering the potential downside.

People need jobs, and not surprisingly, they particularly like important work. We need to welcome the benefits that advanced robotics bring and at the same time, we need to be proactive in stepping up to the challenges that come along with the benefits. There are lots of ways to address this issue, but it is apparent from the concern shown at SXSW, that this is a conversation that needs to begin sooner rather than later.

We do live in a changing world, which is changing at an ever increasing pace. As leaders, we can chose to either react to the changes being brought on by a growing robotic workforce, or we can chose to lead the transformation of our institutions to successfully accommodate that change. If we chose to lead, the first step, as identified by Professor John Kotter, is a sense of urgency. That sense seems already to be building. Next steps are to develop a vision for ways to accommodate the necessary changes, and building coalitions necessary to implement it. It might be wise to start looking at these steps now.

Like any complex problem, multiple approaches will most likely be needed in order to address workforce disruption. With broad discussion, planning and leadership now, we can mitigate the downside issues, while enabling a strengthened economy now and a bright future among the stars.

Mark