• úvod
  • témata
  • události
  • tržiště
  • diskuze
  • nástěnka
  • přihlásit
    registrace
    ztracené heslo?
    TADEASplanetarita - 'making life planetary'
    resersovaci klubik k tematum planetarity

    planetarita jako jednotici pohled na soucasne deni na Zemi a roli lidi v nem.

    temata:

    - architektura planetarniho usporadani: klima, ekosystemy, logistika
    - sociopoliticke regiony planety a jejich cesta k planetarite
    - planetarita a architektura digitalni / vypocetni infrastruktury: ukladani dat, zpracovani vypoctu a identity
    - process civilizace v kontextu planetarity
    - kosmicky vyzkum, gradace civilizace v hypercivilizaci - 'making life multiplanetary'
    - management ekosystemu v kontextu planetarity - making life 'planetary' [for the first time]
    - terapie v kontextu planetarity: individualni terapie, facilitace spolecenskych procesu, biogeoterapie
    - exoplanetarita / interplanetarita - tema jinych civilizaci na jinych planetach [ne jako spekulativni blaboleni a amaterska ufologie] ale jako principialni tema

    a tak dale.
    rozbalit záhlaví
    TADEAS
    TADEAS --- ---
    TADEAS:

    Avi Loeb | Unexplained Anomalies: Examining Possible Extraterrestrial Origins
    https://www.youtube.com/live/BFuW-zfH5RU?feature=share
    TADEAS
    TADEAS --- ---
    Seeking Extraterrestrial Artifacts In The Pacific Ocean | by Avi Loeb | Jun, 2023 | Medium
    https://avi-loeb.medium.com/seeking-extraterrestrial-artifacts-in-the-pacific-ocean-9591aeda1aa7

    An Anomalous Wire Made of Manganese and Platinum in the Pacific Ocean Site of the First Interstellar Meteor | by Avi Loeb | Jun, 2023 | Medium
    https://avi-loeb.medium.com/an-anomalous-wire-made-of-manganese-and-platinum-in-the-pacific-ocean-site-of-the-first-3ccb7076dfc0

    We Have Discovered Spherules from the Path of the First Recognized Interstellar Meteor, IM1 | by Avi Loeb | Jun, 2023 | Medium
    https://avi-loeb.medium.com/we-have-discovered-spherules-from-the-path-of-the-first-recognized-interstellar-meteor-im1-d6cd94946b53

    I ran up the stairs and saw the image of a spherule, 0.3 millimeter in size, looking like a metallic pearl on the background of volcanic ash. It felt like finding an ant in the kitchen. When you find one, you know that there must be many more. Indeed, I could find many more metallic spheres in the same microscope image.

    I congratulated the team for the discovery and urged Ryan to immediately place the spherule in the X-ray Fluorescence analyzer to get its composition. We found a composition of mostly iron with some magnesium and titanium but no nickel. This composition is anomalous compared to human-made alloys, known asteroids and familiar astrophysical sources
    TADEAS
    TADEAS --- ---
    A Log of Our Exponential History. Our cosmic history went through periods… | by Avi Loeb | May, 2023 | Medium
    https://avi-loeb.medium.com/a-log-of-our-exponential-history-9b2ed6b7eb98

    Our cosmic history went through periods of exponential acceleration in complexity. It is therefore appropriate to summarize it through 10 milestones separated by a factor of ten in time from each other:

    1
    Five years ago, GPT-1 was introduced by OpenAI. It contained 117 million parameters. Today, GPT-4 has a million times more parameters.
    Fifty years ago, the final mission of NASA’s Apollo program, Apollo 17, had humans setting foot on the Moon.

    2
    Fifty years ago, the final mission of NASA’s Apollo program, Apollo 17, had humans setting foot on the Moon.

    3
    Five hundred year ago, Nicolaus Copernicus proposed that planets orbit the Sun, and that the Earth is not at the center of the Universe but rather a planet which, besides orbiting the Sun annually, also spins daily on its axis.

    4
    Five thousand years ago, human history was recorded for the first time through the Sumerian cuneiform tablet.

    5
    About fifty thousand years ago, three waves of Homo sapiens left Africa, migrated to Europe and replaced the indigenous Neanderthals, based on archaeological evidence.

    6
    The genetic ancestry of Neanderthals dates to another factor of ten back in time. According to a new paper in Nature magazine, the Neanderthals originated 600,000 years ago from a small group of humans that budded off from an African community, labeled Stem1. The Neanderthals expanded across Europe and Asia.

    7
    About five million years ago, the last split between the human and the chimpanzee–bonobo lineages took place. This split distinguished humans with only 23 pairs of chromosomes, compared to 24 for apes. The subsequent diversification of Hominins left only one surviving species, Homo sapiens.

    8
    Ten times farther back in time, at around 66 million years ago, a ten-kilometer asteroid hit the Earth and extinguished 70–80% of all terrestrial species. Besides the non-avian dinosaurs, the event triggered the loss of all flying reptiles, most marine reptiles, more than half of land plants and insects, and hosts of other terrestrial and marine organisms. At face value, this was a devastating blow to the diversity of life on our planet. But we must keep in mind the blossoming culminating in GPT-4 after this catastrophe. If a catastrophe does not kill complexity altogether, it could make its eventual growth more impressive.

    9
    Ten times farther back, half a billion years ago, Earth went through the Cambrian explosion of species, when all major animal phyla started appearing based on fossil records. Before the Cambrian diversification, most terrestrial organisms were composed of individual cells or small multicellular organisms. The accelerated diversification resulted in the complex animals we see today.

    10
    About five billion years ago, the Sun formed out of the gravitational collapse of a local cloud of molecular gas. The planets, including the Earth, formed out of the debris disk left around the new star.
    Fifty billion years ago, the Universe did not exist. What preceded the Big Bang is unknown.
    TADEAS
    TADEAS --- ---
    TADEAS:
    TADEAS:

    Through the Great Filter: a Spacetime Search for UAP(UFOs) - with Robin Hanson | Merged Podcast EP 9
    https://youtu.be/cQq2pKNDgIs
    TUHO
    TUHO --- ---
    Benjamin Bratton

    See you in London.
    After Alignment:

    Orienting Synthetic Intelligence Beyond Human Reflection
    Lecture by Benjamin Bratton, Antikythera Director
    Wednesday June 28th 6pm
    Central Saint Martins Platform Theatre, Kings Cross
    RSVP required: https://bit.ly/3N1JPkp
    The emergence of machine intelligence must be steered toward planetary sapience in the service of viable long term futures. However, instead of strong alignment with “human values” and superficial anthropocentrism, the steerage of AI means treating these with nuanced suspicion.
    Synthetic intelligence refers to the wider field of artificially-composed intelligent systems that do and do not correspond to Humanism’s traditions, but which can complement and combine with human cognition, intuition, creativity, abstraction and discovery. Inevitably, both are forever altered by these diverse amalgamations.
    Benjamin Bratton, director of Antikythera, author of The Stack: On Software and Sovereignty and Professor of Philosophy of Technology at University of California San Diego, will share work from the program’s design studio and will discuss shifts from AGI to artificial generic intelligence, the agency of recursive simulations, the decentering of personal data, the emergence of cognitive infrastructures, intelligence as an evolutionary scaffold, the limitations of mainstream AI ethics, and why a planetary model of synthetic intelligence must drive its geopolitical project.
    A reception in the CSM Platform Bar will follow the lecture.
    TADEAS
    TADEAS --- ---
    Consequences of twenty-first-century policy for multi-millennial climate and sea-level change | Nature Climate Change
    https://www.nature.com/articles/nclimate2923

    Here, we argue that the twentieth and twenty-first centuries, a period during which the overwhelming majority of human-caused carbon emissions are likely to occur, need to be placed into a long-term context that includes the past 20 millennia, when the last Ice Age ended and human civilization developed, and the next ten millennia, over which time the projected impacts of anthropogenic climate change will grow and persist. This long-term perspective illustrates that policy decisions made in the next few years to decades will have profound impacts on global climate, ecosystems and human societies — not just for this century, but for the next ten millennia and beyond
    YEETKA
    YEETKA --- ---
    RADIQAL: jj, mně přijde, že kdo chce být v obraze stejně mluví a čte anglicky, pak není problém si dávat DR..
    ale jo, možná to je něco co by mělo být na archetypalu :)
    RADIQAL
    RADIQAL --- ---
    YEETKA: Tenhle je vopravdu dobrej. Trochu mi v běhu času zapomíná, že ty poslední 4 díly s “changing the register” jsu uplně genialně revoluční. A marně tápu po českym překladu…
    YEETKA
    YEETKA --- ---
    další (pro mě kulervoucí, meh) díl TH s weylerem, spoluzakladatelem greenpeace..
    docela dobrý ponor do některých vrstev planetarity..


    Rex Weyler | Team Human
    https://www.teamhuman.fm/episodes/244-rex-weyler
    TADEAS
    TADEAS --- ---
    Climate Science as Counterculture | Liinc em Revista
    https://revista.ibict.br/liinc/article/view/5928

    This article investigates climate science as a cultural object. By pursuing the “logic of its aporias”, it is shown that climate science emerged at the confluence of the objective development of the means of production (constituting a “planetary general intellect”) and the countercultural movement of the 60s, which put ecology at its center, but was broader than mere “environmentalism”. This resulted in the emergence of new forms of sensibility and a qualitative transformation of the natural sciences, which recognized the autonomy and complexity of nature. The constitution of climate science is reconstructed by taking the IGBP’s Amsterdam Declaration as historical archive, and by discussing biographical aspects of representative scientists, in mediation with their work and their world-historical context. Yet, the limits of climate science are those of counterculture. Climate science and its institutions preserve aspects of the previous mechanistic science as well as remaining traces of commodity fetishism.
    TADEAS
    TADEAS --- ---
    TADEAS: we humans have driven half of all mammal species extinct already on the planet, now it's too late for the other species to say, "oh those humans, they are smarter than us, they are cutting down our rainforest, we should do something about it. they should have thought about that earlier, before they lost control to us. now is our chance to get this right
    TADEAS
    TADEAS --- ---
    12:10 so we're building these aliens minds that we're then gonna have to share the planet with

    Max Tegmark interview: Six months to save humanity from AI? | DW Business Special
    https://youtu.be/ewvpaXOQJoU
    TUHO
    TUHO --- ---
    In this short response we engage with four generous and stimulating commentaries on our Planetary Social Thought (2021). We endorse Cecilia Åsberg’s suggestion that the boundary between the environmental humanities and social sciences is dissolving – but also call for more inventive relations between these disciplines and the natural sciences. We discuss László Cseke’s account of the rise of factory-farmed ‘broiler’ chickens as a reversal of many of the achievements of the Earth over the last half-billion years. We agree with Franklin Ginn’s suggestion that vegetality is a crucial vector of planetary self-exploration and invention – and one that can give us clues as to what life might become on other worlds. We reflect on Simon Dalby’s observations about the lack of reference to planetary governance in the book, suggesting that we need a way of thinking the politics of the earth that goes beyond conflict and agonism – in Åsberg’s words, that we need to learn not just to survive but to thrive.

    Thinking through the Earth - Research Portal | Lancaster University
    http://www.research.lancs.ac.uk/portal/en/publications/-(1992ea4d-e4d1-4e99-ad87-206558c22f21).html

    a taky
    Planetary Social Thought: The Anthropocene Challenge to the Social Sciences | Wiley
    https://www.wiley.com/en-gb/Planetary+Social+Thought%3A+The+Anthropocene+Challenge+to+the+Social+Sciences-p-9781509526352
    TADEAS
    TADEAS --- ---
    ESA launches JUICE to find out if Jupiter's moons can sustain life | DW News
    https://youtu.be/0xIfzRD_DJc
    TADEAS
    TADEAS --- ---
    digitalni vrstva sveta jako planetarni fenomen, digitalni (aka "umele") inteligence jako projev rozvoje teto vrstvy sveta (ci pouze vrstvy civilizace?)

    k tematu od juliana assange nez byl pred nekolika lety odstrizen od komunikace




    Enrico Fermi was out walking amongst us out in Los Alamos with some of his physicist buddies and he looked up at the stars and said: where is everyone. [...] His question is very deep - it's that there don't appear to be any. And by appear I mean there are no physical signs that we can detect, in terms of what happens to stars, the energy seems to be constantly boiling off being wasted into space, we don't hear radio signals, we don't see anything of civilized life.

    And yet in the last 10 years [...] planetary astrophysics has shown that there's tens of thousands of extrasolar planets that we have actually detected on an individual basis. And from that you can assemble the probabilities of there being Earth-approximating planets. And there's hundreds of millions, maybe billions just in this galaxy. So the question then becomes: Well, where is the civilized life? Why don't we see it? Why don't we see any signs of it anywhere?

    The answer to that could be that the reasons we don't see signs of civilized life with the increasingly powerful measurement apparatus is because life simply doesn't evolve, life itself. That's why we don't see civilized life. There's something very rare about the earth and the means of life here evolved. But when we look at the Earth and when we look at extrasolar planets, we don't see any reason why that should be true. In fact we we see organic amino acids in space dust and asteroids and so on, and we know that asteroids cross-pollinate. For example there's asteroids here from Mars, bits of Earth have gone to Mars etc., when we get hit by an asteroid and stuff flies off etc. So there's quite a lot of reason to believe that the basic building blocks of life have spread widely, so my view, and I think it's the the only view you can take so far until more data comes in, is that there's something very unstable about civilization.

    There's something very unstable about technologically advanced civilization that means it doesn't go on for long, and I think the answer to that is the very rapid competition, if you like the light speed competition that occurs when you wire up the world to itself. And that very rapid competition can have two fates. Number one, it can produce very robust artificial intelligences that are then coupled with their States. You can see that panning out in the United States and China as they each shore up. [...] Those two forces are going to take essentially all the market and the rapid competition between them with the backing and support of the states behind them. The exacerbation of the commercial competition through geopolitical competition will lead to an uncontrollable desire for growth in artificial intelligence capacity, leading to a very severe conflict or statification. You can follow these trajectories in different ways, it takes too long to describe.

    So I think that's our biggest threat - it is geopolitical competition removing what otherwise might be sensible human controls on the development of artificial intelligence. That geopolitical competition are harnessed by and is itself harnessing the largest artificial intelligence companies to ratchet up a process which human beings can no longer control. Not in the sense of there being killer robots, although of course Google is now putting its AI in drones and so on, so yeah, there are killer robots. Not in this classic dystopian sense, but rather in a way that comes from understanding how human institutions behave, which is institutions that are built on competition and growing their size and dominating markets etc., [and that] take any advantage they get and will continue to ratchet up in competition and everything that they produce has that DNA in it. And that's where we're headed, and that's a severe threat to human beings in general and all businesses. But perhaps the answer to that threat is people understand computer security, offensive computer security in particular, trying to work out what to do about it.


    ....



    "The future of humanity is the struggle between humans that control machines and machines that control humans.

    While the internet has brought about a revolution in our ability to educate each other, the consequent democratic explosion has shaken existing establishments to their core. Burgeoning digital super states such as Google, Facebook and their Chinese equivalents, who are integrated with the existing order, have moved to reestablish discourse control. This is not simply a corrective action. Undetectable mass social influence powered by artificial intelligence is an existential threat to humanity.

    While still in its infancy, the geometric nature of this trend is clear. The phenomenon differs from traditional attempts to shape culture and politics by operating at a scale, speed, and increasingly at a subtlety, that appears highly likely to eclipse human counter-measures.

    Nuclear war, climate change or global pandemics are existential threats that we can work through with discussion and thought. Discourse is humanity’s immune system for existential threats. Diseases that infect the immune system are usually fatal. In this case, at a planetary scale."

    - J. Assange



    Julian Assange last Interview before Communications Cut at Ecuadorian Embassy - London
    https://www.youtube.com/watch?v=IBy4KJ6OVC4
    TADEAS
    TADEAS --- ---
    VOYTEX
    VOYTEX --- ---
    Would building a Dyson sphere be worth it? We ran the numbers. | Ars Technica
    https://arstechnica.com/science/2023/03/building-a-dyson-sphere-whats-the-payback-time-of-disassembling-a-planet/

    (mmch fun fact k Dysonovi, byl HC popirac antropo klima zmeny...)
    TADEAS
    TADEAS --- ---
    Glass beads on moon’s surface may hold billions of tonnes of water, scientists say | The moon | The Guardian
    https://www.theguardian.com/science/2023/mar/27/glass-beads-on-moon-surface-hold-billions-of-tonnes-of-water-scientists-say
    TADEAS
    TADEAS --- ---
    2016 Other Minds: The Octopus, the Sea, and the Deep Origins of Consciousness
    https://www.amazon.com/Other-Minds-Octopus-Origins-Consciousness/dp/0374227764

    Although mammals and birds are widely regarded as the smartest creatures on earth, it has lately become clear that a very distant branch of the tree of life has also sprouted higher intelligence: the cephalopods, consisting of the squid, the cuttlefish, and above all the octopus. In captivity, octopuses have been known to identify individual human keepers, raid neighboring tanks for food, turn off lightbulbs by spouting jets of water, plug drains, and make daring escapes. How is it that a creature with such gifts evolved through an evolutionary lineage so radically distant from our own? What does it mean that evolution built minds not once but at least twice? The octopus is the closest we will come to meeting an intelligent alien. What can we learn from the encounter?

    In Other Minds, Peter Godfrey-Smith, a distinguished philosopher of science and a skilled scuba diver, tells a bold new story of how subjective experience crept into being―how nature became aware of itself. As Godfrey-Smith stresses, it is a story that largely occurs in the ocean, where animals first appeared. Tracking the mind’s fitful development, Godfrey-Smith shows how unruly clumps of seaborne cells began living together and became capable of sensing, acting, and signaling. As these primitive organisms became more entangled with others, they grew more complicated. The first nervous systems evolved, probably in ancient relatives of jellyfish; later on, the cephalopods, which began as inconspicuous mollusks, abandoned their shells and rose above the ocean floor, searching for prey and acquiring the greater intelligence needed to do so. Taking an independent route, mammals and birds later began their own evolutionary journeys.

    But what kind of intelligence do cephalopods possess? Drawing on the latest scientific research and his own scuba-diving adventures, Godfrey-Smith probes the many mysteries that surround the lineage. How did the octopus, a solitary creature with little social life, become so smart? What is it like to have eight tentacles that are so packed with neurons that they virtually “think for themselves”? What happens when some octopuses abandon their hermit-like ways and congregate, as they do in a unique location off the coast of Australia?

    By tracing the question of inner life back to its roots and comparing human beings with our most remarkable animal relatives, Godfrey-Smith casts crucial new light on the octopus mind―and on our own.
    VOYTEX
    VOYTEX --- ---
    Trochu tecny, ale podle mereni vlhkosti meteoritu to vypada, ze voda na Zemi je starsi nez Slunce, protoze by se jinak po ceste vyparila.
    Metoda ale zahrnovala dvoji suseni vzorku... Kazdop. vodu si musime hlidat pred ufounskejma planetarnima cucakama, nova neprileti!
    Where did Earth's water come from? Not melted meteorites, according to scientists
    https://www.spacedaily.com/reports/Where_did_Earths_water_come_from_Not_melted_meteorites_according_to_scientists_999.html
    TADEAS
    TADEAS --- ---
    Frontiers | Pancosmorio (world limit) theory of the sustainability of human migration and settlement in space
    https://www.frontiersin.org/articles/10.3389/fspas.2023.1081340/full

    It seems to be an accepted assumption that human migration into space is inevitable. However, almost 60 years of scientific studies of the effects of space on Earth life suggest this is not a given. Life on Earth evolved in the context of conditions that are unique to Earth and are not duplicated anywhere else in our solar system. The science indicates that life-sustaining conditions on Earth could be the very things that inhibit our ability to live off-Earth. This paper combines 100 years of scientific development of a theory of ecological thermodynamics with classical mechanics theory and analytical models of self-restoring heat engines to explain how the Sun and Earth have evolved into islands of order in the entropy of space. An explanation is provided regarding how naturally occurring conservative force fields engage a diversity of natural resources in semi-reversible cycles that build a high-exergy ecosphere. The science infers that the ability to establish a human settlement in space without Earth-like self-restoring order, capacity, and organization will result in settlement sustainment challenges. Historical evidence of Earth settlements with disrupted ecosystems point to the following possibilities. Supply chains would disappear, market resources would be depleted, advancement in human pursuits would be disrupted, social and governance systems would falter or collapse, human population numbers would decline, genetic diversity in the human genome would be lost, average human individual biomass would decrease, and human knowledge and understanding would be forgotten. What does it mean to have a location in space outside of Earth be “like Earth?” The results of research are presented as a pancosmorio theory of human sustainability that is developed using the scientific philosophy methodology of abductive reasoning. Four analytical models of space ecosphere sustainability and five hypotheses with proposed tests for falsifiability are provided, including a theorem that suggests a limit to human expansion into space. A new quantitative method of human sustainability is developed from theories of network ecology, providing orthogonal properties of an ecosystem network stability function based upon an ecosystem network production function. Conclusions are made regarding the potential for sustainable development in space using balanced sustainability. Insights are provided regarding human endeavors on the Moon and Mars, as well as the Fermi paradox.
    Kliknutím sem můžete změnit nastavení reklam