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Synthetic People, Transhumanism

Uploading and Downloading Your Brain – Leads to synthetic people and the end of humanity

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This is very interesting, because if Dr. Peter Beter’s audio tapes are correct, this technology has been around almost 50 years. An I think, that it has been available, but like Robert Duncan once said in “Project: Soul Catcher: Secrets of Cyber and Cybernetic Warfare Revealed“, the CIA and Military are 30 years ahead in technology.

And if this all is possible this could lead to scenario where you have a duplicate of yourself, like a clone, and then they just download your brain image to that clone. Then they get rid of “real” you so, that they can use and control the clone instead. This is quite scary, because this could create a slave society where all are clones or replicas, which obey everything… hey but that is like reality today… hehe just kidding, but seriously WAKE UP and keep on searching the Truth.

So here is a article about how we are capable of store our brain in the computer:

This Guy Wants to Help You Download Your Brain

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Ever wanted to download a copy of your own brain? Say you went through a serious car crash, for example—wouldn’t it be nice to take out your damaged brain and replace it with a replica you’d downloaded and stashed away prior to the accident? Or perhaps over time you could even build a collection of brains, each storing different memories, thoughts, and dreams that would equate, in a sense, to different versions of you? Something like that might come in handy when you’re trying to throw off various neuroses, like a fear of asking out hot people or an anxiety about bungee ropes, or a reluctance to believe that scientists could one day pull something like this off.

There are people trying to make this a reality. Last month, a Japanese supercomputer managed to simulate one second of human brain activity; last summer, some German scientists unveiled a remarkably high-res 3D digital model of the human brain; and last April, the Obama administration announced the BRAIN Initiative, a research endeavour projected to cost hundreds of millions of dollars and take over a decade to complete. Its humble goal? To map every single one of the tens of billions of neurons in the human brain, creating a “connectome“—a comprehensive diagram of the brain’s neural connections.

Theoretically, a complete connectome of an individual’s brain would constitute a copy of the pathways between every memory, thought, and experience that person had ever had. The implications of this kind of precise knowledge of a brain are far-reaching, but at this point still largely speculative.

Current procedures for brain imaging on a micro level tend to be incredibly time-consuming, costly, and require the destruction (via slicing and/or dyeing) of the brain being studied. But with the freakish, robotic march of progress, the technology required is being built and improved upon, and some futurists suggest that humans will be able to download and store copies of their brains within the next two decades. Naturally, labs the world over want to get there first, but I couldn’t find many that are already trying to sell the tech to you.

One I did find is Brain Backups. Headed up by 32-year-old Russell Hanson, the neuroinformatics startup based out of Cambridge, Massachusetts, aims to map human brains without destroying them. While other research groups are being formed and funded through government grants, Brain Backups hopes to crowdsource a great deal of its research costs by offering the future storage of all your neurons and synapses. I gave Russell a call to find out his thoughts on the matter.

Russell Hanson.

VICE: Can you explain—in the simplest possible terms—what your company does or proposes to do?
Russell Hanson: Our team is developing the tools to image the brain non-destructively and non-invasively. The earlier methods in this field required slicing the brain very thin and imaging it on an electron microscope, which is both extremely slow and extremely expensive. We wanted to do this faster so researchers can learn how the brain changes over time, without destroying the brain every time they wanted to make a measurement.

OK, and how are you going to research this?
Obviously we’re talking about animal experiments here. We’re a small company with a big goal. We have some very talented engineers, scientists, and designers from MIT, Harvard, the Danish Technical University, UCLA, biotech, and pharma, and also the synthetic biology community in Boston. Our goal is to do this cheaply and non-destructively, so that anyone can image their brain, like they can map their genome affordably using a [personal genomics testing] service like 23andMe. I got into this a number of years ago when I asked how much space is needed to store the contents of the human brain in a class at MIT. It’s only become more interesting since then.

How much space is needed?
It depends a lot on how detailed the information you want to store is. The range is somewhere between 1,000 terabytes to 10,000 terabytes. With compression, this can be much smaller—this is an estimate of the uncompressed size.

Does the technology you want to use even exist yet?
The actual technology does exist, but it is cumbersomely slow and prohibitively expensive. Our equipment is quite real—we’re not working with hypothetical equipment. It’s incremental; we can do a certain set of things now, and we want to do a certain set of additional things tomorrow. And it’s just getting easier, just like building anything. Ford didn’t start out with their 2013 model, they started out with the 1908 Model T—the first car affordable to the middle class. And before that there were prototypes—19 of them, in fact, before they got to the Model T. The whole goal when I started this at MIT was to make the personal brain map affordable on a middle-class income.

A PET scan of a normal brain. Image via

At the moment, how much would it cost to back up your brain, and what exactly would that get a prospective buyer?
Please understand this is the current “research and development” price, not the price of the product, which will be much lower. The current estimate is in the range of $1.5 million to $3 million for a destructive, knife-edge scanning, optical microscope imaging of a human brain. It would give, essentially, a complete brain map, but of course would destroy the brain in the process. This would provide the set of images that can be used to do a whole brain circuit reconstruction.

There are other methods that use nanoparticles, synthetic biology, X-rays, or MRI that can reduce this cost significantly, and that do not require destroying the brain during imaging. The price for high-throughput genome sequencing has come down to $3,000 to $4,000 recently, and there are methods that are in development to use this inexpensive method to get high resolution brain connectivity information. Getting this cost down significantly, making the data more useful and easily understood, and building the interface and platform are the foci of our work.

Currently, you have to have a non-living brain for imaging, right? How far are you from being able to map a brain without destroying it?
It’s all about the resolution. Currently we can map the brain’s activity using fMRI non-destructively. Newer special purpose MRI machines with higher power and animal MRI machines have greater resolution than older medical MRI machines. Determining exactly what is needed for different types of brain maps apart from “everything” is an open research topic. What is the minimal amount of information needed to accurately characterize or model a brain, and in what way? Adapting these methods from animal experiments to safe methods that can be used with human subjects is where much of the new Obama BRAIN initiative and many research labs are heading.

So once a brain has been imaged, can you effectively play back that information, like a tape?
A single snapshot is a static image, so you can’t play something back that doesn’t have a time series associated with it. Conceivably, you could “rewind” just as you can peer back in time into your memories. The way different people access different pieces of their memories is hierarchical and everything is built upon prior experience, so you would have to build a special kind of “relative knowledge engine” that needs to construct the mechanism of accessing the memories for each person individually. Research has shown that the brain is very poor at telling wall-clock time, and is affected by all sorts of things, like whether we caused an event or not. So no—you can’t really “play back” the information in the kind of frame-by-frame or second-by-second manner we’re used to with audio or visual recordings.

The connectome, from my understanding, is simply the documentation of connections, but provides no information about what is being passed between neurons at these points. If you can’t play back or otherwise access the information in your brain, what’s the use to the average person of having a map of their brain’s pathways?
The goal of the work is to build the infrastructure to make this data usable and interesting. It is pretty clear that having the brain map is a necessary first component to “playing back” or “running” a meaningful dynamical simulation of a brain, whether it’s a mouse, fly, or human. We decided to tackle this engineering challenge first before the other one—that’s being worked on by other very capable groups. In its simplest form, this research will surely inform treatments for devastating diseases like Alzheimer’s, Parkinson’s, autism, depression, and others—research that the governmental funding agencies have a long history of supporting.

A 16th century diagram of how to prepare the skull for brain surgery. This is the kind of thing Brain Backups would like to avoid. Image via.

Who do you think might be interested in “backing up” their brain, and what might be the benefits of having a copy?
“Backing up” the brain is really just a short way of saying “getting the relevant information on cellular structure, neuronal connectivity, etc, at a very high resolution and recording all that information to a computer or hard drive.” There are lots of compelling reasons why getting this brain backup is useful. I think one of the most compelling ones is that it’s like an insurance policy, a backup of something you value. You could get in a car accident tomorrow morning and really wish you could just rewind. The medical benefits of having this detailed personal information are also huge: a doctor could know exactly which treatment you should receive for depression or Alzheimer’s or epilepsy without having to guess or rely on crude measurements.

What do you make of the suggestion that the brain can’t possibly be uploaded or stored in its entirety because its important features are the result of unpredictable, nonlinear interactions among billions of cells? Are the brain and the human experience it processes too random to be computerized?
This is essentially a computability problem. All of the information in the brain is a finite set of finite-precision numbers. It is well known that any finite set of finite-precision numbers is computable. From a chemical or biochemical perspective, having enough data about the biochemical interactions—i.e. that these proteins, genes, RNA, etc, are used in this neuron and in this way—is all the data that is needed to determine the neuron’s function. Gathering the appropriate dynamical and time series data with the appropriate metadata and also gathering the chemical and biochemical data without destroying what is being imaged is a technology problem, not an intrinsically intractable system. There are already many neuron modeling computer programs that can model experimental neuronal firing data very accurately.

What are the implications of having someone’s brain content downloaded somewhere, in terms of identity theft or large-scale life tampering?
I think it is very unlikely. For example, anyone can steal your DNA by just getting a sample of your saliva. I can’t think of anyone who thinks twice about spitting because they fear someone is going to come along and harvest their DNA, which is all the information needed to make them. These days, people are uploading all kinds of information about themselves, including their genome, because they realize this data is important and can benefit society. Some people are uploading their genomic information in the hopes that, because it is available, someone will use it to fix the ailments that affect them personally, or that affect their families. This is happening at hospitals in controlled environments, but also on the open internet. Right now it is a purely hypothetical problem of online genomic identity theft. It is too expensive, and the skills required are very specialized.

Regarding protecting the data, encryption is the industry standard. If you steal someone’s data, decrypt it and that data is used to impersonate someone—and that data you are using to impersonate them is everything they know—the problem becomes a little bit more tricky.

Yeah, I can see that you might run into a few problems there. Finally, can you map the brain successfully without mapping the consciousness? A lot of the criticisms of brain backup research seem to rest on the idea that machines can’t possibly process phenomenal human experience.
Most of the work on this tends to be philosophical. It is a classic philosophy vs. science debate. I am not much of a philosopher. In my view, and in the view of many others, consciousness arises from biological, chemical, and physical interactions. This isn’t to say that there aren’t many interesting philosophical issues of mapping the consciousness; there are. Deciphering the neural codes that are used to communicate with the nervous system has shown that they are indeed very much like machine codes.

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And here Stephen Hawking talks about the topic:

Could your brain keep on living even after your body dies? Sounds like science fiction, but celebrated theoretical physicist Stephen Hawking recently suggested that technology could make it possible.

“I think the brain is like a program in the mind, which is like a computer,” Hawking said last week during an appearance at the Cambridge Film Festival, The Telegraph reported. “So it’s theoretically possible to copy the brain on to a computer and so provide a form of life after death.”

He acknowledged that such a feat lies “beyond our present capabilities,” adding that “the conventional afterlife is a fairy tale for people afraid of the dark.”

Hawking, 71, made the remarks in conjunction with the premiere of a new documentary about his life.

He has spoken previously about what he calls the “fairy story” of heaven and the afterlife. Likening the human brain to a computer whose components will fail, he said, “There is no heaven or afterlife for broken-down computers.”

Some people are actively working to develop technology that would permit the migration of brain functions into a computer. Russian multi-millionaire Dmitry Itskov, for one, hopes someday to upload the contents of a brain into a lifelike robot body as part of his 2045 Initiative, The New York Times reported recently.

A separate research group, called the Brain Preservation Foundation, is working to develop a process to preserve the brain along with its memories, emotions and consciousness. Called chemical fixation and plastic embedding, the process involves converting the brain into plastic, carving it up into tiny slices, and then reconstructing its three-dimensional structure in a computer

 

 

And Here’s Michio Kaku talks about this topic:

 

Everyone is always talking about the good sides of technology, but what about this clone idea and mass control? No it’s not fashionable and people just don’t need to know the bad sides, let’s just microchip them all and tell them it’s a good idea because then we can read your medical records… bullshit. Via microchips they can start synthetic telepathy and control every fucking one of us. Have a nice day to you all.

Conspiracies, Doubles, Organic Robotoids, World politics

“Organic Robotoids are real” by Dr Peter Beter, clones and synthetic people

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This is very a fascinating, but hard topic and if it’s true it explains many things in the world. I try to collect information from different sources, but the best source is Dr. Peter Beter’s audio letters. That is the reason I have posted them before, but now I leap to these letters, which include these organic robotoids. But if you want to learn the BIG PICTURE unfortunately you have to listen all Dr. Peter Beter’s audio letters:

Dr Beter Talks on how the Organic Robotoids are real, how the Russian Scientists stumbled upon the organic robotoids by pure accident, how they look like us and how they have now infiltrated the U.S..

 

 

 

There is a tons of information about these robotoids in Dr. Peter’s letters on this site: http://www.peterdavidbeter.com/

If I remember correctly the Robotoid stuff in Peter Beter’s audio letters begins on number 45 and then Dr. Beter tells about these almost every letter after that.

Then I list some information about these clones and synthetics:

What if you were to discover that certain individuals in government, corporations, military, academia, media, and the alternative research community are either reprogrammed versions of their former selves or artificial beings entirely? What if you learned these were under the complete control of covert forces possessing a vested interest in manipulating society?

>> Human Simulacra (Source)

>> Doubles, Robotoids and replicas

>> Doppelgängers/Doubles

>> Is Sylvester Stallone cloned?

>> “Synthetic people”, “bio-androids” and “robotoids” may be walking among us.

>> ARE US PRESIDENTS CLONED?

>> APPENDIX 3. CLONES, SYNTHETICS, ORGANIC ROBOTOIDS AND DOUBLES

>> Are Synthetic Humans walking amongst us? are they being used in public arena’s to control the population? is this youtube science fiction or reality?

 

Then some Videos about this topic:

 

And then some Nicki’s weird performances like the “double” is in malfunction or something. And if you search more about this topic, it is the main characteristic of a clone, that it doesn’t work properly and it may start to malfunction over time:

 

 

Here some robotoid collapses on live TV-Show:

 

And then we have a conspiracy, that Eminem is cloned and here the clone is malfunctioning on live TV-Show:

 

 

 

And then we have couple of videos about how celebrities have been cloned and some of them have lived before in our history:

DYSLEXIC !!!! … like it was in the beginning, it shall be in the end…VIDEOS —- former government insider George Green talks about cloning of presidents…that they started to clone humans around 1930 – http://youtu.be/cCD6dk2OtK8 …….. Obama Sees Self In Egyptian -Pyramid – http://youtu.be/a5-rRA-jV0k …… this is where i found the cloning stuff of obama – http://youtu.be/kQdfT3gKrD8 …The Government Are Cloning Humans and Themselves!- They’re All ZOMBIES – made by a woman that was ten years in the illuminati industry- http://youtu.be/SZhRaLhU6Zs ….Michael Jackson – Remember The Time music video — http://youtu.be/LeiFF0gvqcc ……Ancient Egyptian Michael Jackson statue– http://youtu.be/9ZJYqdLj3Bk … paul is dead documentary part 1 of 7 -. http://www.youtube.com/watch?v=5F-t8B… …. ONE OF THE MOST CRAZIEST ANCIENT TABLETS IN THE WORLD!! —- http://youtu.be/sxllptqVSYk

 

 

 

Then I post just some movies about cloning & robotoids, because Illuminati wants to hide things in the movies:

>> Futureworld (1976)

>> Body Snatchers (1993)

>> The 6th Day (2000) : This is actually pretty close to the process, that Dr. Peter Beter tells about. How they take “Hologram photography” of your brain and the plant it into the clone.

Hard topic to comprehend, but I think, that the technology is there so this could be possible.

Organic Robotoids, Synthetic People, Transhumanism

Bionics, Transhumanism and the end of evolution

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Bionics
 

Now I just want to awake the topic where we the people are creating things that should not be, why? Because we are not GODS! We should stop now and take a step back, this could be the end of our civilization. First some info about bionics:

Bionics (also known as bionical creativity engineering) is the application of biological methods and systems found in nature to the study and design of engineering systems and modern technology.[citation needed]

The word bionic was coined by Jack E. Steele in 1958, possibly originating from the technical termbion (pronounced bee-on) (from Ancient Greek: βίος), meaning ‘unit of life‘ and the suffix -ic, meaning ‘like’ or ‘in the manner of’, hence ‘like life’. Some dictionaries, however, explain the word as being formed as a portmanteau from biology + electronics. It was popularized by the 1970s television series The Six Million Dollar Man and The Bionic Woman, which were based upon the novel Cyborg by Martin Caidin, which was influenced by Steele’s work, and feature humans given superhuman powers by electromechanical implants

The transfer of technology between lifeforms and manufactures is, according to proponents of bionic technology, desirable because evolutionary pressure typically forces living organisms, including fauna and flora, to become highly optimized and efficient. A classical example is the development of dirt- and water-repellent paint (coating) from the observation that the surface of the lotus flower plant is practically unsticky for anything (the lotus effect).[citation needed]

The term “biomimetic” is preferred when reference is made to chemical reactions.[citation needed] In that domain, biomimetic chemistry refers to reactions that, in nature, involve biological macromolecules (for example, enzymes or nucleic acids) whose chemistry can be replicated using much smaller molecules in vitro.

Examples of bionics in engineering include the hulls of boats imitating the thick skin of dolphins; sonar, radar, and medical ultrasound imaging imitating the echolocation of bats.

In the field of computer science, the study of bionics has produced artificial neurons, artificial neural networks,[1] and swarm intelligence. Evolutionary computation was also motivated by bionics ideas but it took the idea further by simulating evolution in silico and producing well-optimized solutions that had never appeared in nature.

It is estimated by Julian Vincent, professor of biomimetics at the University of Bath‘s department of mechanical engineering Biomimetics group, that “at present there is only a 12% overlap between biology and technology in terms of the mechanisms used”.[2]

History

The name biomimetics was coined by Otto Schmitt in the 1950s. The term bionics was coined by Jack E. Steele in 1958 while working at the Aeronautics Division House at Wright-Patterson Air Force Base in Dayton, Ohio. However, terms like biomimicry or biomimetics are more preferred in the technology world in efforts to avoid confusion between the medical term bionics. Coincidentally, Martin Caidin used the word for his 1972 novel Cyborg, which inspired the series The Six Million Dollar Man. Caidin was a long-time aviation industry writer before turning to fiction full-time.

Methods

Velcro was inspired by the tiny hooks found on the surface of burs.

Often, the study of bionics emphasizes implementing a function found in nature rather than just imitating biological structures. For example, in computer science, cybernetics tries to model the feedback and control mechanisms that are inherent in intelligent behavior, while artificial intelligence tries to model the intelligent function regardless of the particular way it can be achieved.

The conscious copying of examples and mechanisms from natural organisms and ecologies is a form of applied case-based reasoning, treating nature itself as a database of solutions that already work. Proponents argue that the selective pressure placed on all natural life forms minimizes and removes failures.

Although almost all engineering could be said to be a form of biomimicry, the modern origins of this field are usually attributed to Buckminster Fuller and its later codification as a house or field of study to Janine Benyus.

Roughly, we can distinguish three biological levels in the fauna or flora, after which technology can be modeled:

Specific uses of the term

In medicine

Bionics is a term which refers to the flow of concepts from biology to engineering and vice versa. Hence, there are two slightly different points of view regarding the meaning of the word.

In medicine, bionics means the replacement or enhancement of organs or other body parts by mechanical versions. Bionic implants differ from mere prostheses by mimicking the original function very closely, or even surpassing it.

Bionics’ German equivalent, Bionik, always adheres to the broader meaning, in that it tries to develop engineering solutions from biological models. This approach is motivated by the fact that biological solutions will usually be optimized by evolutionary forces.

While the technologies that make bionic implants possible are still in a very early stage, a few bionic items already exist, the best known being the cochlear implant, a device for deaf people. By 2004 fully functional artificial hearts were developed. Significant further progress is expected to take place with the advent of nanotechnologies. A well-known example of a proposed nanodevice is a respirocyte, an artificial red cell, designed (though not built yet) by Robert Freitas.

Kwabena Boahen from Ghana was a professor in the Department of Bioengineering at the University of Pennsylvania. During his eight years at Penn, he developed a siliconretina that was able to process images in the same manner as a living retina. He confirmed the results by comparing the electrical signals from his silicon retina to the electrical signals produced by a salamander eye while the two retinas were looking at the same image.

In 2007 the Scottish company Touch Bionics launched the first commercially available bionic hand, named “i-Limb Hand”. According to the firm, by May 2010 it has been fitted to more than 1,200 patients worldwide.[14]

The Nichi-In group is working on bimomimicking scaffolds in tissue engineering, stem cells and regenerative medicine have given a detailed classification on biomimetics in medicine.[15]

Politics

A political form of biomimicry is bioregional democracy, wherein political borders conform to natural ecoregions rather than human cultures or the outcomes of prior conflicts.

Critics of these approaches often argue that ecological selection itself is a poor model of minimizing manufacturing complexity or conflict, and that the free market relies on conscious cooperation, agreement, and standards as much as on efficiency – more analogous to sexual selection. Charles Darwin himself contended that both were balanced in natural selection – although his contemporaries often avoided frank talk about sex, or any suggestion that free market success was based on persuasion, not value.

Advocates, especially in the anti-globalization movement, argue that the mating-like processes of standardization, financing and marketing, are already examples of runaway evolution – rendering a system that appeals to the consumer but which is inefficient at use of energy and raw materials. Biomimicry, they argue, is an effective strategy to restore basic efficiency.

Biomimicry is also the second principle of Natural Capitalism.

Other uses

Business biomimetics is the latest development in the application of biomimetics. Specifically it applies principles and practice from biological systems to business strategy, process, organisation design and strategic thinking. It has been successfully used by a range of industries in FMCG, defence, central government, packaging and business services. Based on the work by Phil Richardson at the University of Bath[16] the approach was launched at the House of Lords in May 2009.

In a more specific meaning, it is a creativity technique that tries to use biological prototypes to get ideas for engineering solutions. This approach is motivated by the fact that biological organisms and their organs have been well optimized by evolution. In chemistry, a biomimetic synthesis is a chemical synthesis inspired by biochemical processes.

Another, more recent meaning of the term bionics refers to merging organism and machine. This approach results in a hybrid system combining biological and engineering parts, which can also be referred as a cybernetic organism (cyborg). Practical realization of this was demonstrated in Kevin Warwick‘s implant experiments bringing about ultrasound input via his own nervous system.

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Then I put some videos where this madness is explained:

 

 

 

 

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