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Tuesday, December 21, 2021

Mind uploading in fiction

From Wikipedia, the free encyclopedia
 
ArtificialFictionBrain.png

Mind uploading, whole brain emulation, or substrate-independent minds, is a use of a computer or another substrate as an emulated human brain. The term "mind transfer" also refers to a hypothetical transfer of a mind from one biological brain to another. Uploaded minds and societies of minds, often in simulated realities, are recurring themes in science-fiction novels and films since the 1950s.

Early and particularly important examples

A story featuring an artificial brain that replicates the personality of a specific person is "The Infinite Brain" by John Scott Campbell, written under the name John C. Campbell, and published in the May 1930 issue of Science Wonder Stories. The artificial brain is created by an inventor named Anton Des Roubles, who tells the narrator that "I am attempting to construct a mechanism exactly duplicating the mechanical and electrical processes occurring in the human brain and constituting the phenomena known as thought." The narrator later learns that Des Roubles has died, and on visiting his laboratory, finds a machine that can communicate with him via typed messages, and which tells him "I, Anton Des Roubles, am dead—my body is dead—but I still live. I am this machine. These racks of apparatus are my brains, which is thinking even as yours is. Anton Des Roubles is dead but he has built me, his exact mental duplicate, to carry on his life and work." The machine also tells him "He made my brain precisely like his, built three hundred thousand cells for my memory, and filled two hundred thousand of them with his own knowledge. I have his personality; it is my own through a process I will tell you of later. ... I think just as you do. I have a consciousness as have other men." He then explains his discovery that the electrical impulses in the brain create magnetic fields that can be detected by a device he built called a "Telepather", and that "[t]hrough this instrument any one's mental condition can be exactly duplicated." Later, he enlists the narrator's help in constructing a new type of artificial brain that will retain his memories but possess an expanded intellect, though the experiment does not go as planned, as the new intelligence has a radically different personality and soon sets out to conquer the world.

An early story featuring technological transfer of memories and personality from one brain to another is "Intelligence Undying" by Edmond Hamilton, first published in the April 1936 issue of Amazing Stories. In this story, an elderly scientist named John Hanley explains that when humans are first born, "our minds are a blank sheet except for certain reflexes which we all inherit. But from our birth onward, our minds are affected by all about us, our reflexes are conditioned, as the behaviorists say. All we experience is printed on the sheet of our minds. ... Everything a human being learns, therefore, simply establishes new connections between the nerve cells of the brain. ... As I said, a newborn child has no such knowledge connections in his cortex at all—he has not yet formed any. Now if I take that child immediately after birth and establish in his brain exactly the same web of intricate neurone connections I have built up in my own brain, he will have exactly the same mind, memories, knowledge, as I have ... his mind will be exactly identical with my mind!" He then explains he has developed a technique to do just this, saying "I've devised a way to scan my brain's intricate web of neurone connections by electrical impulses, and by means of those impulses to build up an exactly identical web of neurone connections in the infant's brain. Just as a television scanning-disk can break down a complicated picture into impulses that reproduce the picture elsewhere." He adds that the impulses scanning his brain will kill him, but the "counter-impulses" imprinting the same pattern on the baby's brain will not harm him. The story shows the successful transfer of John Hanley's mind to the baby, whom he describes as "John Hanley 2nd", and then skips forward to the year 3144 to depict "John Hanley, 21st" using his advanced technology to become the ruler of the Earth in order to end a war between the two great political powers of the time, and then further ahead to "John Hanley, 416th" helping to evacuate humanity to the planet Mercury in response to the Sun shrinking into a white dwarf. He chooses to remain on Earth awaiting death, so that people would "learn once more to do for themselves, would become again a strong a self-reliant race", with Hanley concluding that he "had been wrong in living as a single super-mind down through the ages. He saw that now, and now he was undoing that wrong."

A story featuring human minds replicated in a computer is the novella Izzard and the Membrane by Walter M. Miller, Jr., first published in May 1951. In this story, an American cyberneticist named Scott MacDonney is captured by Russians and made to work on an advanced computer, Izzard, which they plan to use to coordinate an attack on the United States. He has conversations with Izzard as he works on it, and when he asks it if it is self-aware, it says "answer indeterminate" and then asks "can human individual's self-awareness transor be mechanically duplicated?" MacDonney is unfamiliar with the concept of a self-awareness transor (it is later revealed that this information was loaded into Izzard by a mysterious entity who may nor may not be God), and Izzard defines it by saying "A self-awareness transor is the mathematical function which describes the specific consciousness pattern of one human individual." It is later found that this mathematical function can indeed be duplicated, although not by a detailed scan of the individual's brain as in later notions of mind uploading; instead, Donney just has to describe the individual verbally in sufficient detail, and Izzard uses this information to locate the transor in the appropriate "mathematical region". In Izzard's words, "to duplicate consciousness of deceased, it will be necessary for you to furnish anthropometric and psychic characteristics of the individual. These characteristics will not determine transor, but will only give its general form. Knowing its form, will enable me to sweep my circuit pattern through its mathematical region until the proper transor is reached. At that point, the consciousness will appear among the circuits." Using this method, MacDonney is able to recreate the mind of his dead wife in Izzard's memory, as well as create a virtual duplicate of himself, which seems to have a shared awareness with the biological MacDonney.

In The Altered Ego by Jerry Sohl (1954), a person's mind can be "recorded" and used to create a "restoration" in the event of their death. In a restoration, the person's biological body is repaired and brought back to life, and their memories are restored to the last time that they had their minds recorded (what the story calls a 'brain record'), an early example of a story in which a person can create periodic backups of their own mind which are stored in an artificial medium. The recording process is not described in great detail, but it is mentioned that the recording is used to create a duplicate or "dupe" which is stored in the "restoration bank", and at one point a lecturer says that "The experience of the years, the neurograms, simple memory circuits—neurons, if you wish—stored among these nerve cells, are transferred to the dupe, a group of more than ten billion molecules in colloidal suspension. They are charged much as you would charge the plates of a battery, the small neuroelectrical impulses emanating from your brain during the recording session being duplicated on the molecular structure in the solution." During restoration, they take the dupe and "infuse it into an empty brain", and the plot turns on the fact that it is possible to install one person's dupe in the body of a completely different person.

An early example featuring uploaded minds in robotic bodies can be found in Frederik Pohl's story "The Tunnel Under the World" from 1955. In this story, the protagonist Guy Burckhardt continually wakes up on the same date from a dream of dying in an explosion. Burckhardt is already familiar with the idea of putting human minds in robotic bodies, since this is what is done with the robot workers at the nearby Contro Chemical factory. As someone has once explained it to him, "each machine was controlled by a sort of computer which reproduced, in its electronic snarl, the actual memory and mind of a human being ... It was only a matter, he said, of transferring a man's habit patterns from brain cells to vacuum-tube cells." Later in the story, Pohl gives some additional description of the procedure: "Take a master petroleum chemist, infinitely skilled in the separation of crude oil into its fractions. Strap him down, probe into his brain with searching electronic needles. The machine scans the patterns of the mind, translates what it sees into charts and sine waves. Impress these same waves on a robot computer and you have your chemist. Or a thousand copies of your chemist, if you wish, with all of his knowledge and skill, and no human limitations at all." After some investigation, Burckhardt learns that his entire town had been killed in a chemical explosion, and the brains of the dead townspeople had been scanned and placed into miniature robotic bodies in a miniature replica of the town (as a character explains to him, 'It's as easy to transfer a pattern from a dead brain as a living one'), so that a businessman named Mr. Dorchin could charge companies to use the townspeople as test subjects for new products and advertisements.

Something close to the notion of mind uploading is very briefly mentioned in Isaac Asimov's 1956 short story The Last Question: "One by one Man fused with AC, each physical body losing its mental identity in a manner that was somehow not a loss but a gain." A more detailed exploration of the idea (and one in which individual identity is preserved, unlike in Asimov's story) can be found in Arthur C. Clarke's novel The City and the Stars, also from 1956 (this novel was a revised and expanded version of Clarke's earlier story Against the Fall of Night, but the earlier version did not contain the elements relating to mind uploading). The story is set in a city named Diaspar one billion years in the future, where the minds of inhabitants are stored as patterns of information in the city's Central Computer in between a series of 1000-year lives in cloned bodies. Various commentators identify this story as one of the first (if not the first) to deal with mind uploading, human-machine synthesis, and computerized immortality.

Another of the "firsts" is the novel Detta är verkligheten (This is reality), 1968, by the renowned philosopher and logician Bertil Mårtensson, a novel in which he describes people living in an uploaded state as a means to control overpopulation. The uploaded people believe that they are "alive", but in reality they are playing elaborate and advanced fantasy games. In a twist at the end, the author changes everything into one of the best "multiverse" ideas of science fiction.

In Robert Silverberg's To Live Again (1969), an entire worldwide economy is built up around the buying and selling of "souls" (personas that have been tape-recorded at six-month intervals), allowing well-heeled consumers the opportunity to spend tens of millions of dollars on a medical treatment that uploads the most recent recordings of archived personalities into the minds of the buyers. Federal law prevents people from buying a "personality recording" unless the possessor first had died; similarly, two or more buyers were not allowed to own a "share" of the persona. In this novel, the personality recording always went to the highest bidder. However, when one attempted to buy (and therefore possess) too many personalities, there was the risk that one of the personas would wrest control of the body from the possessor.

In the 1982 novel Software, part of the Ware Tetralogy by Rudy Rucker, one of the main characters, Cobb Anderson, has his mind downloaded and his body replaced with an extremely human-like android body. The robots who persuade Anderson into doing this sell the process to him as a way to become immortal.

In William Gibson's award-winning Neuromancer (1984), which popularized the concept of "cyberspace", a hacking tool used by the main character is an artificial infomorph of a notorious cyber-criminal, Dixie Flatline. The infomorph only assists in exchange for the promise that he be deleted after the mission is complete.

The fiction of Greg Egan has explored many of the philosophical, ethical, legal, and identity aspects of mind transfer, as well as the financial and computing aspects (i.e. hardware, software, processing power) of maintaining "copies." In Egan's Permutation City (1994), Diaspora (1997) and Zendegi (2010), "copies" are made by computer simulation of scanned brain physiology. See also Egan's "jewelhead" stories, where the mind is transferred from the organic brain to a small, immortal backup computer at the base of the skull, the organic brain then being surgically removed.

The movie The Matrix is commonly mistaken for a mind uploading movie, but with exception to suggestions in later movies, it is only about virtual reality and simulated reality, since the main character Neo's physical brain still is required for his mind to reside in. The mind (the information content of the brain) is not copied into an emulated brain in a computer. Neo's physical brain is connected into the Matrix via a brain-machine interface. Only the rest of the physical body is simulated. Neo is disconnected from and reconnected to this dreamworld.

James Cameron's 2009 movie Avatar has so far been the commercially most successful example of a work of fiction that features a form of mind uploading. Throughout most of the movie, the hero's mind has not actually been uploaded and transferred to another body, but is simply controlling the body from a distance, a form of telepresence. However, at the end of the movie the hero's mind is uploaded into Eywa, the mind of the planet, and then back into his Avatar body.

Further examples

Mind transfer is a theme in many other works of science fiction in a wide range of media. Specific examples include the following:

Literature

  • Frederik Pohl's story The Tunnel under the World (1955). See above article.
  • Isaac Asimov's short story The Last Question (1956). See above article.
  • Arthur C. Clarke's The City and the Stars (1956). See above article.
  • In the Noon Universe created by Arkady and Boris Strugatsky, the Great Encoding of 2121 was the first known attempt to completely store an individual's personality on an artificial medium. The final stages of the Encoding are described in the chapter 14 of Noon: 22nd Century (Candles Before the Control Board), first published in 1961.
  • Clifford D. Simak's Hugo-shortlisted novel Time is the Simplest Thing (1961) is based around mind copying and uploading. The initial swap involves 'the Pinkness' giving 'Shep Blaine' a very large number of minds that it has collected over the aeons in exchange for a copy of his mind.
  • Philip José Farmer's World of Tiers series (1965–1993) introduces the villainous Bellers, who were laboratory machines designed to temporarily hold Lord's consciousness between clone bodies, which became sentient and self replicating.onto a Holopox unit shortly before being nuked by the KGB.
  • In Roger Zelazny's Lord of Light (1967), the characters can technologically "transmigrate" their minds into new bodies.
  • In Arthur C. Clarke's novel 2001: A Space Odyssey (1968), the beings controlling the monoliths were once alien lifeforms that had uploaded their minds into robotic bodies and finally into the fabric of space and time itself. The character Dave Bowman undergoes an uploading from the body of a human into a "ghost", as he is described in later books.
  • Bertil Mårtensson's novel Detta är verkligheten (This is reality), 1968. See above article for details.
  • Robert Silverberg's novel To Live Again (1969). See opening section for details.
  • Gene Wolfe's novella The Fifth Head of Cerberus (1972) features a robot named "Mr. Million" whose mind is an uploaded version of the original man who the narrator ('Number Five') was cloned from, and who acts as the narrator's tutor.
  • John Sladek's satirical The Muller-Fokker Effect (1973), in which a human mind could be recorded on cassette tapes and then imprinted on a human body using tailored viruses.
  • In an interesting reversal of the typical mind-transfer story, in Robert A Heinlein's Time Enough for Love (1973) a sentient computer transfers "her" mind into a genetically engineered human body.
  • In James P. Hogan's The Giants novels (1977–2005), stable FTL travel takes weeks if not months, so people upload their minds into an intergalactic network controlled by the AI known as VISAR. The network also supports a large series of virtual worlds for people to interact.
  • Michael Berlyn's The Integrated Man (1980), where a human mind, or part of it (or even just a set of skills) can be encoded on a chip and inserted into a special socket at the base of the brain.
  • Rudy Rucker's novel Software (1982). See opening section for details.
  • C. J. Cherryh's novel Voyager in Night (1984). An ancient alien vessel uploads various beings that it meets.
  • In Heroes Unlimited (1984) under the Robot category, a human pilot has a transferred intelligence category that transfers a human intelligence over a distance into the body of a robot. This option is also available in Rifts Sourcebook 1. In either case it can be permanent.
  • William Gibson's novel Neuromancer (1984). See opening section for details.
  • Frederik Pohl's novel Heechee Rendezvous (1984) was the first in his Heechee series in which the protagonist Robinette Broadhead had been uploaded into a computer after his death. The technology was first introduced in Pohl's previous novel in the Gateway tetralogy, Beyond the Blue Event Horizon (1982)
  • Larry Niven deals with mind-transfer in his short stories: memories from 'corpsicles' (cryogenically frozen bodies) are transferred to mindwiped criminals. In the novels The Smoke Ring (1987) and The Integral Trees (1984), a human is voluntarily 'translated' into a computer program to operate as a starship's guiding intelligence.
  • Iain M. Banks's Culture series (1987–) make extensive reference to the transfer of mind-states.
  • Greg Bear's novel Eternity (1988) features a main character discovering a captured uploaded mind of a type of alien called a "Jart", whose civilization is later discovered to have the goal of uploading and digitizing as many minds and life-forms as possible with the hope of preserving them in a future "Final Mind" similar to Teilhard or Tipler's conception of the Omega Point. The story also features Bear's notion of the Taylor algorithms which allow a mentality to discover what type of system it is running on (for example, Bear writes on p. 109 that with these algorithms, "a downloaded mentality could tell whether or not it had been downloaded").
  • Janet Asimov's Mind Transfer (1988) journeys through the birth, life, death, and second life of a man whose family pioneers human-to-android mind transfer. It also explores the ethical and moral issues of transferring consciousness into an android at the moment of death, and examines the idea of prematurely activating an android which has not yet accepted a human brain scan.
  • Several characters in Kyle Allen's The Archon Conspiracy (1989) are repeatedly killed and resurrected in prosthetic bodies, once a "pattern map" of their brains is recovered and hard-wired into an artificial neural net. The main antagonist uses a similar process to construct a memetic computer virus, in the process uploading the personality of a notorious serial killer into several thousand people.
  • Roger MacBride Allen's The Modular Man (1992) portrays the interior experience of a personality copied into a vacuum cleaner and his legal battle for recognition as a legal personality. See also Political ideas in science fiction.
  • Peter James' Host (1993). A group of scientists is researching the feasibility of the upload to achieve immortality. Unfortunately it turns out that there are some unforeseen problems with the combination of human emotions and the power to use computers and the internet to manipulate the real world.
  • In the novel Feersum Endjinn (1994) by Iain M. Banks, the minds of the dead are uploaded into a computer network known as "the data corpus", "cryptosphere" or simply "crypt", allowing them to be routinely reincarnated. The story revolves around two characters who are trying to reactivate a piece of ancient technology, the "Fearsome Engine", which can prevent the Sun from dimming to the point where life on Earth becomes extinct.
  • Greg Egan's novels Permutation City (1994), Diaspora (1997) and Zendegi (2010). See opening section for details.
  • In Endgame (1996), the last novel of the Doom series by Dafydd Ab Hugh and Brad Linaweaver, the alien race known as Newbies attempts to transfer Fly Taggart's and Arlene Sanders's souls to a computer simulation based on their memories. However, due to difference between "formats" of human soul and soul of any other being in the galaxy, they accidentally copied their soul, with one copy trapped in the simulation and the other left in their bodies.
  • In Garth Nix's Shade's Children (1997), Shade is an uploaded consciousness acting in loco parentis to teenagers to help save them from evil Overlords. Shade contemplates at times how human he is, especially as his personality degenerates during the story; and whether or not he should have a new human body.
  • In Charles Platt's novel The Silicon Man (1997), an FBI agent who has stumbled on a top-secret project called LifeScan is destructively uploaded against his will. Realistically describes the constraints of the process and machinery.
  • Tad Williams's Otherland series (1998–2002) concerns the activities of a secret society whose goals include creating a virtual reality network where they will be uploaded and in which they will live as gods. Otherland contains a very hard SF approach to the topic, but balances the hard approach with fantastical adventures of the protagonists within the virtual reality network.
  • Gene Wolfe's trilogy The Book of the Short Sun (1999–2001) features an old generation starship called the Whorl which is run by a group of uploaded rulers who have set themselves up as gods. Once the Whorl arrives at a star system with habitable planets, they send giant "godlings" to the humans on board to encourage them to depart the ship.
  • In Abduction (2000) by Robin Cook, a group of researchers discover an underwater civilization which achieved immortality by transferring their minds into cloned bodies.
  • In Alastair Reynolds' Revelation Space universe (2000–), a complete and functioning copy of the mind is described as an alpha-level simulation while a non-sentient copy of the mind based on predictive behavioural pattern of a person's mind is described as a beta-level simulation.
  • In Eater (2000) by Gregory Benford, mind-uploading (or consciousness-uploading) is a "demand" of the major antagonist, which is a "magnetic intelligence" (composed of similarly encoded minds) anchored on the event horizon of a black hole. The major character's wife, who is dying of cancer, has her consciousness uploaded into a computer and mounts an attack on the entity, achieving a type of immortality in the process.
  • Kiln People (2002) by David Brin postulates a future where people can create clay duplicates of themselves with all their memories up to that time. The duplicates only last 24 hours, and the original can then choose whether or not to upload the ditto's memories back into himself afterward. Most people use dittos to do their work.
  • Richard K. Morgan's Altered Carbon (2002) and other Takeshi Kovacs books, where everyone has a "cortical stack" implanted at the base of their skull, soon after being born. The device then records all your memories and experiences in real-time. The stack can be "resleeved" in another body, be it a clone or otherwise, and/or backed up digitally at a remote location.
  • Jim Munroe's novel Everyone in Silico (2002) is set in Vancouver in 2036; people can upload to a virtual world called Frisco which is loosely based on the now submerged city of San Francisco.
  • Vernor Vinge's novella The Cookie Monster (2003) explores the possibility of mind uploads who are not aware they have been uploaded, and who are kept as unknowing slaves doing technical research in a simulation running at high speed relative to the outside world.
  • In Cory Doctorow's Down and Out in the Magic Kingdom (2003), the plot is set in motion when the main character is killed and "restored from backup", a process which entails the creation of a clone and flashing the clone's brain with an image stored on a computer.
  • In Carlos Atanes' FAQ: Frequently Asked Questions (2004) the Sisterhood of Metacontrol transfer Angeline's consciousness into the virtual world of the Réseau Céleste.
  • Robert J. Sawyer's novel Mindscan (2005) deals with the issue of uploaded consciousness from the perspective of Jake Sullivan: both of them. The human Jake has a rare, life-threatening disease and to extend his life he decides to upload his consciousness into a robotic body; but things don't go quite as planned.
  • In the Old Man's War series (2005–) by John Scalzi, the minds of volunteer retirees are transferred to younger, genetically enhanced versions of themselves in order to enable them to fight for the Colonial Defence Forces (CDF). In The Android's Dream, two characters' minds are uploaded onto computers.
  • In The Battle of the Labyrinth (2008) by Rick Riordan, Daedalus/Quintus transfers his mind to an automaton by means of a combination of mechanics and magic.
  • The book and podcast novel series 7th Son (2009) from JC Hutchins focuses purely on mind uploading and cloning. Combining two ethically situational sciences and turning it into a thriller series when a terrorist clone can copy his consciousness to other people's minds.
  • In Peter F. Hamilton's Void Trilogy (2007–2010) humans are able to upload into the machine intelligence known as ANA. The same theme is found in P F Hamilton's Mindstar Rising (1993) in which an industrialist's mind is also uploaded to a storage device.
  • Similar themes are also found in Broken Angels and Altered Carbon by Richard Morgan.
  • Hannu Rajaniemi's Quantum Thief series (2010–2014), which includes the novels The Quantum Thief, The Fractal Prince and The Causal Angel, describes a posthuman world where uploaded minds (named gogols) are widely used as intellectual software utilized for various purposes including data analysis, planning and control of embedded systems.
  • Clyde Dsouza's Memories with Maya (2013) looks at how deep learning processes, and 'Digital Breadcrumbs' left behind by people (tweets, Facebook updates, blogs) combined with memories of living relatives can be used to re-construct a mind and augment it with narrow AI libraries. The resulting 'Dirrogate' or Digital Surrogate can be thought of as a posthumous mind upload.
  • David T. Wolf's novel, "Mindclone," describes the first successful brain scan and upload, creating a digital twin of Marc Gregorio, a science writer. Alternating between the points of view of the human and his digital twin, the novel explores the technology and its consequences as the pair establishes a friendly rivalry, and cooperates to fend off an avaricious government contractor. (2013)
  • Damien Boyes's series Lost Time (2015-), features characters whose minds are uploaded and digitally restored into artificial bodies. The series explores the emotional, legal, philosophical, and societal ramifications of mind uploading technology.
  • In the novel So Far Out to Sea by Dane St. John (2016), the visionary Abraham Trevis must locate a habitable exoplanet and plot out a journey to get there, in which he plans to use an experimental process called "relocation" to allow humans to survive the inhospitable forces of space and time – it consists of specialized nanotechnology called "architects", engineered for the purpose of replicating neurons and all individual experiences, learnings, and emotional traits.
  • In Steve Toutonghi's 2016 novel, Join, people are able to fuse their individual psyches into shared collective consciousnesses—a shared identity known as a join—in order to live multiple lives simultaneously, enjoy perfect companionship, and never die.
  • In Adrian Tchaikovsky's novel Children of Time (2016) both Dr. Avrana Kern and Gilgamesh Captain Vrie Guyen experiment with whole brain emulation with varied degrees of success.
  • Dennis E. Taylor's Bobiverse series (2016–Present) follows a 21st-century man named Bob whose consciousness has been uploaded and copied into many "replicants". These computerized clones then explore the galaxy while struggling with whether they are still human, or simply machines.
  • In Neal Stephenson's Fall; or, Dodge in Hell a software billionaire's brain is destructively scanned and then emulated in a massive cloud computing simulation. The story is told partially in contemporary real space and also in the simulation space which may exhibit different perceived timescales for the simulated consciousnesses.

Film

  • In the film The Creation of the Humanoids (1962), set in the future after a nuclear war, the blue-skinned androids known as "humanoids" are trying to infiltrate human society by creating android replicas of humans that have recently died, using a procedure called a "thalamic transplant" to take the memories and personality of the recently deceased human and place them in the replicas.
  • In the 1979 film Star Trek: The Motion Picture, the entity that calls itself V'Ger is a heavily modified Earth space probe that is capable of converting lifeforms and objects such as spacecraft into digitized "data patterns", which can then be represented in holographic or even physical form. The best example of this is when a probe from V'Ger kills the Starship Enterprise's navigator, Lieutenant Ilia, and then generates a mechanized duplicate of her to act as its representative to the Enterprise crew. In the film, it is stated that the duplicate is so detailed as to simulate humanoid biological functions, as well as contain the original Ilia's memory patterns, which the crew attempts to uncover in order to better understand V'Ger's motives.
  • In the film Tron (1982), human programmer Flynn is digitized by an artificial intelligence called the "Master Control Program", bringing him inside the virtual world of the computer.
  • Mamoru Oshii/Masamune Shirow's anime/manga Ghost in the Shell (1989–) portrays a future world in which human beings aggressively mechanize, replacing body and mind with interfacing mechanical/computer/electrical parts, often to the point of complete mechanization/replacement of all original material. Its sequel, Ghost in the Shell 2: Innocence deals heavily with the philosophical ramifications of this problem.
  • In the film Robotrix (1991), a criminally insane scientist, Ryuichi Sakamoto, transfers his mind into a cyborg and immediately commits a series of rapes and murders. Among his victims is female police officer Selena Lam. The scientist Dr. Sara transfers Selena's mind into a cyborg named Eve-27, then copies her own persona into a robotic assistant named Ann. The cyborg-robot team pursue the criminal Sakamoto by investigating a series of murdered prostitutes.
  • The film The Lawnmower Man (1992) deals with attempts by scientists to boost the intelligence of a man named Jobe using a program of accelerated learning, using nootropic drugs, virtual reality input, and cortex stimulation. After becoming superintelligent, Jobe finds a way to transfer his mind completely into virtual reality, leaving his physical body as a wizened husk.
  • The film Freejack (1992) describes a future where the wealthy can seize people out of the past, moments before their death, and transfer their own mind & consciousness to the newly captured body, at the expense of that person's mind. A "freejack" is what an escapee of this process is called. The computer equipment which stores a mind temporarily while it awaits transplant is referred to as "the spiritual switchboard".
  • The Thirteenth Floor (1999) is set in late 1990s Los Angeles, where Hannon owns a multibillion-dollar computer enterprise, and is the inventor of a newly completed virtual reality (VR) simulation of 1937 Los Angeles. But Hannon dies and his protégé eventually discovers that the 1990s Los Angeles itself is a simulation.
  • In the film The 6th Day (2000), the contents of a brain can be downloaded via the optic nerves, and copied to clones.
  • Chrysalis, a 2007 French movie about an experimental machine capable of partially uploading minds. Minds cannot function in purely digital form, they must be placed back into a human container.
  • The central conceit of the 2009 science fiction film Avatar is that human consciousness can be used to control genetically grown bodies (Avatars) based on the native inhabitants of an alien world, in order to integrate into their society. This is not true mind uploading, as the humans only control the Avatars remotely (a form of telepresence), but later in the film Grace connects with Eywa (the collective consciousness of the planet) so her mind can be permanently transferred to her Avatar body. Her mind is uploaded to Eywa, but she does not return to her Avatar body and stays within the Tree of Souls. At the end of the film, Jake's mind is uploaded to Eywa and successfully returns to his Avatar body leaving his human body lifeless. The basis for this type of transfer is not explained in detail, but it seems to have a physical basis rather than being something more mystical, given that Grace had earlier described Eywa as a "global network" (like a neural network) made up of electrochemical "connections" (which she said were "like the synapses between neurons") between the roots of trees, and also said that "the Na'vi can access it—they can upload and download data—memories".
  • In the 2014 movie Captain America: The Winter Soldier, Arnim Zola, a biochemist for HYDRA developed a terminal disease and he transferred his consciousness to a giant computer that took up the entire area of an old, abandoned S.H.I.E.L.D. facility in New Jersey.
  • In the 2014 movie Transcendence, Dr. Will Caster, an artificial intelligence researcher, is assassinated with a bullet laced with radioactive material and has his consciousness uploaded to several quantum processors (and eventually the internet) in order for him to survive in a digital form.
  • In the 2015 movie CHAPPiE the title character Chappie transfers the dying Deon's consciousness into a spare robot through a modified neural helmet.
  • In the 2015 film Advantageous, Gwen Koh is made to choose between having her consciousness transferred to a different body in order to keep her job as the face of a technology company or not having the resources to give her daughter the education that will maintain her position in a socially and economically stratified society.
  • In the 2015 film Self/less the super wealthy are offered the extension of their lives through the transfer of their minds into what are presented as cloned bodies, but are actually humans whose memories are overwritten and suppressed.
  • In the 2018 film Replicas a researcher working on creating synthetic robot brains copies his family's minds into cloned human bodies after they are killed in a car accident, in-order to bring them back to life. However, although their minds are copied into cloned bodies, their minds are first uploaded into storage devices called Mem-Drives capable of storing the entire contents of a human brain, until their minds can then later (only after the cloned bodies that first have to be grown are finished maturing) be transferred subsequently into the cloned human bodies. This film also deals with the concept of Mind uploading (into fully artificial robot bodies) as that is exactly what the primary character in the film is trying to accomplish, from nearly the very beginning of the film.

Television

  • In Galaxy Express 999 (1978), people can achieve effective immortality by transferring their minds into android bodies, if they are wealthy enough to afford them. The main character is set on this as his supreme aspiration in life, but slowly comes to appreciate that it is not quite the panacea he had been led to believe it was.
  • In the 1985 TV movie Max Headroom and ABC Television series, TV reporter Edison Carter is copied into Network 23's computers creating the TV personality Max Headroom.
  • Red Dwarf (1988–1999), where a person's memories and personality can be recorded in just a few seconds and, upon their death, they can be recreated as a holographic simulation. Arnold Rimmer is an example of such a person.
  • In Star Trek: The Next Generation season 2 episode 6 "The Schizoid Man" (1989), Dr Ira Graves uploads his mind into Data's positronic brain. He later downloads his memories into the Enterprise's computer, although his personality has been lost, and his memories reduced to raw data of events.
  • In Star Trek: The Next Generation season 7 episode 10 "Inheritance" (1994), Data encounters his "mother" who unknown to her, had her mind scanned by synaptic scanner by her husband (and Datas "father") Dr Noonien Soong. This was done while she was unconscious, and days before her death an exact copy of her brain was transferred to a positronic matrix, inside a gynoid body (but labeled android body on the show).
  • In Battle Angel Alita (1990–, also known as Gunnm), a closely guarded secret of the elite city of Tiphares/Zalem is that its citizens, after being eugenically screened and rigorously tested in a maturity ritual, have their brains scanned, removed and replaced with chips. When this is revealed to a Tipharean/Zalem citizen, the internalized philosophical debate causes most citizens to go insane.
  • In the Phantom 2040 TV series (1994–) and videogame (1995), Maxwell Madison Sr., the husband of one of the series' main antagonists Rebecca Madison, is killed during a train wreck with the 23rd Phantom and his brainwaves are uploaded onto a computer mainframe. Rebecca plans to download his brainwaves into a living or artificial body to bring him back to life.
  • The second of the four TekWar TV movies, titled "TekLords" (1994), featured the uploaded intelligence of a drug lord's sister, who had been killed in an attempt on his life.
  • The antagonist of the M.A.N.T.I.S. episode "Switches" (1995) is a mad scientist on death row, who has designed a device which will upload his mind into the power grid. The device is activated when the scientist is executed in an electric chair. He is thwarted in his attempt to subject his ex-girlfriend to the same process.
  • In Star Trek Voyager (1995-2001) season 7 episode 7 "Body and Soul" The Doctor had to upload himself into Seven of Nine due to a race who hated photonic life forms.
  • In Yu-Gi-Oh! (1996–), Noah Kaiba died in a car accident and his mind was uploaded to a supercomputer.
  • In the TV series Stargate SG-1 (1997–2007), the Asgard cheat death by transferring their minds into new clone bodies. The mind of Thor, the high commander of the Asgard fleet, was for a time transferred into the computer of a Goa'uld spaceship. In the episode "Tin Man" (1998), the SG-1 team visit a warehouse of an extinct alien civilization, where the android caretaker scans their minds and builds android duplicates of the team, who are unaware that they aren't the originals until they find their original bodies in suspended animation. In "Holiday" (1999) Dr. Daniel Jackson's mind is transferred into Machello's body and vice versa. In "Entity" (2001) Samantha Carter's mind is transferred into a computer. In "Lifeboat" (2003) around 12 minds are transferred into and then out of Daniel Jackson's body. In the two-part opening of season 8, "New Order" (2004), Jack O'Neill's mind is fully interfaced with the main computer of Thor's ship.
  • In the TV series Stargate Atlantis, after being infected with Asuran (Replicator) Nanites, Dr. Weir is capable of accessing and uploading herself in the Asuran collective network.
  • In the TV series Stargate Universe, the consciousnesses of a number of deceased characters are uploaded to the Destiny's main computer, where they exist as live computer programs which can interact with the crew via induced audiovisual hallucinations.
  • Cowboy Bebop episode 23 "Brain Scratch" (1999) is about a cult dedicated towards electronic transference of the mind into a computer network.
  • In the French animated series Code Lyoko (2003–), the primary characters use devices called Scanners that read the entire physical makeup of the user, digitize their atoms and then teleport the user onto the virtual world of Lyoko.
  • In the television series Caprica (2009–2010), a prequel to Battlestar Galactica, the ability to upload human consciousnesses into a virtual reality world is featured prominently. (Battlestar Galactica did not itself feature true mind uploading, since the cylons were artificial intelligences that were not based on ordinary human brains, though their minds could be transferred from one body to another in the same manner as is often envisioned for uploads.) While some characters believe that the process only creates an imperfect copy of the original person, as the death of the original consciousness is unnecessary for the creation of the virtual copy, other characters believe that it can be viewed as a form of religious rebirth analogous to the afterlife.
  • Mind transfer is a central theme in the television series Dollhouse (2009–2010).
  • In the anime series Serial Experiments Lain, the antagonist Masami Eiri embeds his memories and consciousness into the "Wired", the internet of the story universe. He believed that humanity should evolve by ridding themselves of their physical limitations and live as digital entities only.
  • In the second installment of the story The Trial of a Time Lord in the original Doctor Who series, the Doctor's assistant Perpugilliam Brown has her mind erased, and replaced with the mind of the dying Lord Kiv of the Mentors. The storyline mentions that this is the first time the entire mind of an individual can be transplanted from one body to another. It is a pivotal moment in the history of the series as it is the purported reason that the Time Lords took the Doctor out of time and placed him on trial. It was later shown to be false evidence in the Doctor's trial.
  • In the episode Silence in the Library of the 2005 revival of the British television show Doctor Who Donna Noble is "saved" by the computer Cal where she joins several others inside the computer that had been saved previously. Arguably the process of saving the individuals is more involved then simple mind uploading as the teleportation patterns of the individuals are also stored and the Doctor is able in the next episode Forest of the Dead to get Cal to return them to the physical world. However, also in Forest of the Dead, the character of River Song, is killed but the doctor is able, using a future Doctor's sonic screwdriver to upload River's consciousness into Cal thus extending her life indefinitely.
  • In the episode "13.1" of the show Warehouse 13, former Warehouse Agent Hugo Miller's hologram appears when an attempt is made to upgrade the computer systems inside the Warehouse. In fear of being deleted during the upgrade, Hugo locks down the entire Warehouse and attempts to kill everyone inside. Hugo's hologram is later identified as a portion of the agent's mind in which he uploaded onto the Warehouse computers using an artifact, but something went wrong during the transfer and only certain parts of his mind went into the computer, leaving the other parts in Hugo's biological mind. Having only half of an actual brain renders him insane and he is put into an asylum until he is later retrieved by Pete and Myka to reverse what the artifact has done, thus making him a whole person again and deleting the holographic and homicidal half version of Hugo in the Warehouse 13 computer systems.
  • The 2014 episode "White Christmas" of the British TV show Black Mirror features a procedure where copies of living subjects' minds are uploaded to "cookies", devices capable of running full brain emulation, and then used for household control jobs, judicial investigation, and criminal sentencing. An operator can also adjust the cookie speed to make the emulated mind experiment a different time scale, a feature used to apply a thousand-year long sentence to an individual's mind, which is served in a few hours of real-world time.
  • In the 2014 episode "Days of Future Future" of the Simpsons, Professor Frink loads Homer's brain onto a USB-Stick and then brings him to life in a digital environment with his head being shown on (the future equivalents of) "TV"-screens, digital photo frames and computer screens between which Homer can move freely and engage in screensavers and video games. Later Bart buys him a "robot body" (similar to the Surrogates in the movie Surrogates) which he plugs into the "TV" upon which it conflates and Homer's head moves from the screen over to the physical robot.
  • The 2016 episode San Junipero of the British TV show Black Mirror.
  • In Westworld (2016), the eponymous theme park is run with the purpose of digitalizing consciousness in order to achieve immortality. This is done by analyzing the human guests' behaviors and adjusting their digital representation until it reacts in the same way as the guest to any given stimulus.
  • In season 3 of The 100 (2014-2020), which aired in 2016, an AI device known as The Flame is introduced. This device requires merging with a human brain, and is passed down (over many years) to each new Commander of the Grounders, aka Heda. Each new Commander has access to (the ability to see and speak to) all of the prior Commanders, as their minds live on after their deaths, due to being uploaded and saved within The Flame.
  • Altered Carbon (2018) is based on the premise that "More than 300 years in the future, society has been transformed by new technology, leading to human bodies being interchangeable and death no longer being permanent."
  • In season 6 of The 100 (2014-2020), which aired in 2019, a group of colonists from Earth inhabited an Earthlike planet called Sanctum. They developed the technology to download the human mind to a drive and upload it to another human being. In order to achieve this, they also developed the technology to wipe the mind of a human being while keeping the brain intact. After wiping the mind of the victim, they could then insert the mind drive into the body and upload the consciousness of the downloaded mind, effectively allowing human consciousness to live forever in different bodies.
  • In Star Trek: Picard (2020), protagonist Jean-Luc Picard's consciousness is transferred to an android body upon his human body's death. Knowing that Picard would not want to be immortal, creator Altan Intigo Soong and La Sirena crew members Soji Asha and Agnes Jurati deliberately limit his new lifespan to what it would have been without the brain defect that killed him.
  • Super Sentai

Comics

  • In the Marvel Comics universe, Adolf Hitler's mind was transferred into a cloned body upon his death; this clone became the supervillain called the Hate-Monger, first introduced in 1963.
  • The 1966 comic book superhero NoMan "was a human mind housed in a robotic body. The mind, that of Anthony Dunn, had been transferred into the robotic form as his human body passed away."
  • In the 1990 Japanese manga series Battle Angel Alita, one of the main plot points orbits around the "secret of Tiphares". In the aerial city of Tiphares everyone who turns 19 undergoes an "initiation" to obtain Tipharean citizenship: officially this implies just gaining a small tattoo on the forehead but secretly the Medical Investigation Bureau, which controls the city, has the brain of every initiated person to be mechanically surgically removed and, while their body remained in a temporary suspended animation until the end of the process, transfers the individual's mind along with all his memories and informations in a so-called "brain bio-chip", which mimics every aspect of a human brain, which is then implanted where the brain was.
  • In Frank Miller's comic RoboCop Versus The Terminator (1992), the human brain of RoboCop is uploaded into Skynet, the malevolent artificial intelligence from the Terminator series. RoboCop's mind waits hidden inside Skynet for many years until he finally gets an opportunity to strike against it.
  • In Journey Into Mystery (2013) The aliens Beta Ray Bill and Ti Asha Ra as well as his ship Skuttlebutt are all representative uploaded entities. Bill is a cyborg and Ti Asha Ra is created from within the Celestial Galactus himself. In issues #652-55, Skuttlebutt is destroyed, and Ti Asha Ra is killed; however, the ship entity Bill had been chasing is a form of cosmic life collector and partitions Ti Asha Ra's mind to upload Skuttlebutt's consciousness into her physical body, apparently resurrecting her from the dead. It also uploads the life goddess Gaea and Ti Asha Ra into itself, which allows the Asgardian warrior maiden Sif and Bill to rescue them later as all is returned to normal.
  • In Amazing Spider-Man, Otto Octavius was able to house copy of his mind in a robotic body of the Living Brain. After its destruction, Octavius transferred his mind into a clone body and then, into a new clone body of Spider-Man.
  • In DC comics the hero "NoMan" was a 76-year-old man before having his consciousness uploaded.

Video games

  • In the computer game Space Quest IV: Roger Wilco and the Time Rippers (1991) from Sierra Entertainment, the hero Roger Wilco is chased through time by an uploaded version of his old enemy Sludge Vohaul, whose consciousness has been stored on the missing floppies from a never-produced fourth installment of the Leisure Suit Larry series (also made by Sierra).
  • In Delphine Software's game Flashback (1992), the protagonist Conrad Hart discovers that the Morph alien race is plotting to invade Earth. Knowing that the Morphs will erase his memory if they discover that he knows about them, he copies his memory and records a message of himself in his holocube in case if his memory is erased.
  • In Cyborg Justice (1993), a game for the Sega Genesis, the player is uploaded into a robotic body.
  • In the Mega Man X video games (1993–), X's creator Doctor Light had uploaded his brainwaves into a computer before he died, and effectively "lives beyond the grave" as a sentient hologram that can communicate with X and Zero. Additionally, one stage (Cyber Peacock) and the game Mega Man Xtreme involved the protagonists (artificial humans) being uploaded into "cyberspace".
  • The computer game Independence War (1997), in which the player is assisted by a recreation of CNV-301 Dreadnought's former captain, who is bitter about having been recreated without his consent.
  • In the computer game Total Annihilation (1997), a multi-millennia galactic war rages between a society demanding mandatory destructive uploading and a rebellion against it.
  • In the Japanese release of Ace Combat 3: Electrosphere (1999), the main antagonist is the result of a mind uploading experiment, which is referred to in the game as "sublimation" after the phase transition.
  • In the Mega Man Battle Network series (2001–), Hub Hikari, twin brother of protagonist Lan Hikari, was uploaded and configured into the Navi (artificial intelligence) Megaman.EXE to escape a lethal birth defect.
  • In Metroid Fusion (2002), Samus Aran's commander and friend Adam had his brain uploaded to the Federation's network, a process that is apparently common for scientists and leaders.
  • In the MMO Eve Online (2003), players take the role of pilots for hire known as "capsuleers" or "Empyreans". Through usage of capsule technology, they have their minds downloaded and transferred to a new clone through the galactic network at the moment before death.
  • In the RPG game Harbinger (2003) one of the playable characters is uploaded being in a gladiator robotic body, on a generational starship.
  • In the computer game City of Heroes (2004–), the arch-villain known as Nemesis was born in Prussia during the 18th century, but has since then put his mind into a complex, steam-powered robotic body.
  • In the video game Jak 3 (2004), the character Vin uploads his mind into a computer before he is killed.
  • In the Destroy All Humans! series (2005–), Orthopox 13 uploads a "copy of my [his] exquisite mind" onto a Holopox unit just before his ship is nuked by the KGB.
  • In the games Portal and Portal 2, the character GLaDOS is actually Aperture Science's CEO Cave Johnson's assistant Caroline, transferred into a computer. Cave originally opted for himself to be transferred into a computer, but died before it could happen, and hence Caroline was transferred instead. At the end of Portal, GLaDOS also claims to have Chell's brain "scanned and permanently backed up in case something terrible happens".
  • In the game Dirge of Cerberus: Final Fantasy VII (2006), the character Professor Hojo is revealed to have uploaded his consciousness into the worldwide network moments before his death in the original Final Fantasy VII (1997) as a means to survive the encounter with the protagonists and ultimately download himself into a new, stronger body 3 years later.
  • In the iPhone RPG Chaos Rings (2010), a human named Theia transferred her consciousness and memories into the mainframe of the Ark Arena, a highly advanced spaceship and time travel machine, in order to oversee its activities.
  • In Assassin's Creed: Revelations (2011) it turns out that Subject 16 uploaded his mind into the Animus virtual machine shortly before committing suicide in the first game.
  • In the game Deponia (2012) the character "Goal" has her personality backed up onto a disc, inserted inside her head.
  • Cortana from Halo series is based on a cloned brain.
  • In Halo 4 (2012), this is the main purpose of the Forerunner device known as the Composer. It digitizes organic intelligences, allowing them to live as AIs. However, the process corrupts the minds that are converted and is irreversible.
  • In Mass Effect 3 (2012), Legion (member of a race of Synthetic Intelligences known as the Geth) temporarily uploads Commander Shepard's consciousness into the Geth Consensus, the network that houses all Geth programs.
  • In Crysis 3 (2013) it was revealed that in the time since Crysis 2, the personality of "Alcatraz"—the protagonist of Crysis 2—was effectively supplanted by "Prophets" whose memories and consciousness were embedded in the "nanosuit" that Alcatraz was wearing.
  • In the MMO first-person shooter Dust 514 (2013), mercenary foot soldiers use a device called a Neural Interface System (NIS) implant to transfer conscientiousness to a clone body at the moment of death.
  • In the thriller game Master Reboot (2013) the players' character is uploaded into the "Soul Cloud" upon biological death, where all the data that makes up a persons soul in stored in vast data banks.
  • In Warframe (2013), the titular Warframe suits are actually biomechanical shells which are connected the conscience of the actual Tenno, human children who were given unpredictable powers by the Void.
  • In the video game Elite: Dangerous (2014) from Frontier Developments, Utopia, one of possible Powerplay factions to be joined by players, was created over idea of preservation of human mind through mind uploading.
  • In the thriller game SOMA (2015).
  • In the JRPG "Xenoblade Chronicles X" (2015), where humans who escaped the Earth's destruction had their consciousnesses recorded and stored inside a database where they can control artificial bodies known as Mimeosomes.
  • In the Visual Novel Steins;Gate 0 (2015), a main character Makise Kurisu, persists in the form of a digital copy of her brain powered by the experimental program "Amadeus".

Other media

  • In the tabletop game Car Wars (1980) characters' bodies are routinely cloned and their stored memories uploaded into the new bodies, which are activated upon the death of the old versions.
  • In the Rifts role-playing game Dimension Book 2: Phase World (1994), a member of an artificial race called the Machine People named Annie integrates her consciousness permanently with a spacecraft.
  • In the online collaborative world-building project "Orion's Arm" (2000–) the concepts of mind copying and uploading are used extensively, particularly in the e-novel Betrayals.
  • The award-winning RPG Transhuman Space (2002) tackles the mind-uploading issue with the concept of xoxing, which is the illegal perfect copy of a mind. Mind emulation (called ghosts) is always destructive, so a living person cannot co-exist with their digital copy. Nevertheless, this doesn't prevent multiple digital versions from being simultaneously active. Law prohibits more than one active copy of a brain emulation or a strong artificial intelligence at a time (security backups being considered inactive), and the RPG delves into the possible abuses of this (like cult leaders implanting a copies of their own minds in every cult followers' neural interfaces).
  • The RPG Eclipse Phase takes place in a frightening future after a technological singularity in which a group of superintelligent Seed AIs known as TITANs that were infected by an alien nano-virus forcibly destructively uploaded most humans and transhumans alive at the time and kidnapped their egos (term used for brain emulations in the setting), while destroying the surface in an event called "The Fall". Most of the survivors live in space, and have uploaded their personalities (or "egos") and can regularly switch between physical bodies ("morphs"), or inhabit simulated bodies ("infomorphs") in virtual environments. Duplication of uploaded personalities is also possible ("forking").

Interplanetary spaceflight

From Wikipedia, the free encyclopedia
 

Interplanetary spaceflight or interplanetary travel is the crewed or uncrewed travel between stars and planets, usually within a single planetary system. In practice, spaceflights of this type are confined to travel between the planets of the Solar System. Uncrewed space probes have flown to all the observed planets in the Solar System as well as to dwarf planets Pluto and Ceres, and several asteroids. Orbiters and landers return more information than fly-by missions. Crewed flights have landed on the Moon and have been planned, from time to time, for Mars and Venus. While many scientists appreciate the knowledge value that uncrewed flights provide, the value of crewed missions is more controversial. Science fiction writers propose a number of benefits, including the mining of asteroids, access to solar power, and room for colonization in the event of an Earth catastrophe.

A number of techniques have been developed to make interplanetary flights more economical. Advances in computing and theoretical science have already improved some techniques, while new proposals may lead to improvements in speed, fuel economy, and safety. Travel techniques must take into consideration the velocity changes necessary to travel from one body to another in the Solar System. For orbital flights, an additional adjustment must be made to match the orbital speed of the destination body. Other developments are designed to improve rocket launching and propulsion, as well as the use of non-traditional sources of energy. Using extraterrestrial resources for energy, oxygen, and water would reduce costs and improve life support systems.

Any crewed interplanetary flight must include certain design requirements. Life support systems must be capable of supporting human lives for extended periods of time. Preventative measures are needed to reduce exposure to radiation and ensure optimum reliability.

Cutaway diagram of the Apollo Applications Project Venus flyby spacecraft
 
View from MESSENGER as it flies by Earth en route to Mercury

Current achievements in interplanetary travel

The plains of Pluto, as seen by New Horizons after its nearly 10-year voyage

Remotely guided space probes have flown by all of the observed planets of the Solar System from Mercury to Neptune, with the New Horizons probe having flown by the dwarf planet Pluto and the Dawn spacecraft currently orbiting the dwarf planet Ceres. The most distant spacecraft, Voyager 1 and Voyager 2 have left the Solar System as of 8 December 2018 while Pioneer 10, Pioneer 11, and New Horizons are on course to leave it.

In general, planetary orbiters and landers return much more detailed and comprehensive information than fly-by missions. Space probes have been placed into orbit around all the five planets known to the ancients: The first being Venus (Venera 7, 1970), Mars (Mariner 9, 1971), Jupiter (Galileo, 1995), Saturn (Cassini/Huygens, 2004), and most recently Mercury (MESSENGER, March 2011), and have returned data about these bodies and their natural satellites.

The NEAR Shoemaker mission in 2000 orbited the large near-Earth asteroid 433 Eros, and was even successfully landed there, though it had not been designed with this maneuver in mind. The Japanese ion-drive spacecraft Hayabusa in 2005 also orbited the small near-Earth asteroid 25143 Itokawa, landing on it briefly and returning grains of its surface material to Earth. Another ion-drive mission, Dawn, has orbited the large asteroid Vesta (July 2011 – September 2012) and later moved on to the dwarf planet Ceres, arriving in March 2015.

Remotely controlled landers such as Viking, Pathfinder and the two Mars Exploration Rovers have landed on the surface of Mars and several Venera and Vega spacecraft have landed on the surface of Venus. The Huygens probe successfully landed on Saturn's moon, Titan.

No crewed missions have been sent to any planet of the Solar System. NASA's Apollo program, however, landed twelve people on the Moon and returned them to Earth. The American Vision for Space Exploration, originally introduced by U.S. President George W. Bush and put into practice through the Constellation program, had as a long-term goal to eventually send human astronauts to Mars. However, on February 1, 2010, President Barack Obama proposed cancelling the program in Fiscal Year 2011. An earlier project which received some significant planning by NASA included a crewed fly-by of Venus in the Manned Venus Flyby mission, but was cancelled when the Apollo Applications Program was terminated due to NASA budget cuts in the late 1960s.

Reasons for interplanetary travel

Space colony on the O'Neill cylinder

The costs and risk of interplanetary travel receive a lot of publicity—spectacular examples include the malfunctions or complete failures of probes without a human crew, such as Mars 96, Deep Space 2, and Beagle 2 (the article List of Solar System probes gives a full list).

Many astronomers, geologists and biologists believe that exploration of the Solar System provides knowledge that could not be gained by observations from Earth's surface or from orbit around Earth. But they disagree about whether human-crewed missions make a useful scientific contribution—some think robotic probes are cheaper and safer, while others argue that either astronauts or spacefaring scientists, advised by Earth-based scientists, can respond more flexibly and intelligently to new or unexpected features of the region they are exploring.

Those who pay for such missions (primarily in the public sector) are more likely to be interested in benefits for themselves or for the human race as a whole. So far the only benefits of this type have been "spin-off" technologies which were developed for space missions and then were found to be at least as useful in other activities (NASA publicizes spin-offs from its activities).

Other practical motivations for interplanetary travel are more speculative, because our current technologies are not yet advanced enough to support test projects. But science fiction writers have a fairly good track record in predicting future technologies—for example geosynchronous communications satellites (Arthur C. Clarke) and many aspects of computer technology (Mack Reynolds).

Many science fiction stories feature detailed descriptions of how people could extract minerals from asteroids and energy from sources including orbital solar panels (unhampered by clouds) and the very strong magnetic field of Jupiter. Some point out that such techniques may be the only way to provide rising standards of living without being stopped by pollution or by depletion of Earth's resources (for example peak oil).

Finally, colonizing other parts of the Solar System would prevent the whole human species from being exterminated by any one of a number of possible events (see Human extinction). One of these possible events is an asteroid impact like the one which may have resulted in the Cretaceous–Paleogene extinction event. Although various Spaceguard projects monitor the Solar System for objects that might come dangerously close to Earth, current asteroid deflection strategies are crude and untested. To make the task more difficult, carbonaceous chondrites are rather sooty and therefore very hard to detect. Although carbonaceous chondrites are thought to be rare, some are very large and the suspected "dinosaur-killer" may have been a carbonaceous chondrite.

Some scientists, including members of the Space Studies Institute, argue that the vast majority of mankind eventually will live in space and will benefit from doing this.

Economical travel techniques

One of the main challenges in interplanetary travel is producing the very large velocity changes necessary to travel from one body to another in the Solar System.

Due to the Sun's gravitational pull, a spacecraft moving farther from the Sun will slow down, while a spacecraft moving closer will speed up. Also, since any two planets are at different distances from the Sun, the planet from which the spacecraft starts is moving around the Sun at a different speed than the planet to which the spacecraft is travelling (in accordance with Kepler's Third Law). Because of these facts, a spacecraft desiring to transfer to a planet closer to the Sun must decrease its speed with respect to the Sun by a large amount in order to intercept it, while a spacecraft traveling to a planet farther out from the Sun must increase its speed substantially. Then, if additionally the spacecraft wishes to enter into orbit around the destination planet (instead of just flying by it), it must match the planet's orbital speed around the Sun, usually requiring another large velocity change.

Simply doing this by brute force – accelerating in the shortest route to the destination and then matching the planet's speed – would require an extremely large amount of fuel. And the fuel required for producing these velocity changes has to be launched along with the payload, and therefore even more fuel is needed to put both the spacecraft and the fuel required for its interplanetary journey into orbit. Thus, several techniques have been devised to reduce the fuel requirements of interplanetary travel.

As an example of the velocity changes involved, a spacecraft travelling from low Earth orbit to Mars using a simple trajectory must first undergo a change in speed (also known as a delta-v), in this case an increase, of about 3.8 km/s. Then, after intercepting Mars, it must change its speed by another 2.3 km/s in order to match Mars' orbital speed around the Sun and enter an orbit around it. For comparison, launching a spacecraft into low Earth orbit requires a change in speed of about 9.5 km/s.

Hohmann transfers

Hohmann Transfer Orbit: a spaceship leaves from point 2 in Earth's orbit and arrives at point 3 in Mars' (not to scale)

For many years economical interplanetary travel meant using the Hohmann transfer orbit. Hohmann demonstrated that the lowest energy route between any two orbits is an elliptical "orbit" which forms a tangent to the starting and destination orbits. Once the spacecraft arrives, a second application of thrust will re-circularize the orbit at the new location. In the case of planetary transfers this means directing the spacecraft, originally in an orbit almost identical to Earth's, so that the aphelion of the transfer orbit is on the far side of the Sun near the orbit of the other planet. A spacecraft traveling from Earth to Mars via this method will arrive near Mars orbit in approximately 8.5 months, but because the orbital velocity is greater when closer to the center of mass (i.e. the Sun) and slower when farther from the center, the spacecraft will be traveling quite slowly and a small application of thrust is all that is needed to put it into a circular orbit around Mars. If the manoeuver is timed properly, Mars will be "arriving" under the spacecraft when this happens.

The Hohmann transfer applies to any two orbits, not just those with planets involved. For instance it is the most common way to transfer satellites into geostationary orbit, after first being "parked" in low Earth orbit. However, the Hohmann transfer takes an amount of time similar to ½ of the orbital period of the outer orbit, so in the case of the outer planets this is many years – too long to wait. It is also based on the assumption that the points at both ends are massless, as in the case when transferring between two orbits around Earth for instance. With a planet at the destination end of the transfer, calculations become considerably more difficult.

Gravitational slingshot

Simplified example of a gravitational slingshot: the spacecraft's velocity changes by up to twice the planet's velocity
 
Plot of Voyager 2's heliocentric velocity against its distance from the Sun, illustrating the use of gravity assist to accelerate the spacecraft by Jupiter, Saturn and Uranus. To observe Triton, Voyager 2 passed over Neptune's north pole resulting in an acceleration out of the plane of the ecliptic and reduced velocity away from the Sun.

The gravitational slingshot technique uses the gravity of planets and moons to change the speed and direction of a spacecraft without using fuel. In typical example, a spacecraft is sent to a distant planet on a path that is much faster than what the Hohmann transfer would call for. This would typically mean that it would arrive at the planet's orbit and continue past it. However, if there is a planet between the departure point and the target, it can be used to bend the path toward the target, and in many cases the overall travel time is greatly reduced. A prime example of this are the two crafts of the Voyager program, which used slingshot effects to change trajectories several times in the outer Solar System. It is difficult to use this method for journeys in the inner part of the Solar System, although it is possible to use other nearby planets such as Venus or even the Moon as slingshots in journeys to the outer planets.

This maneuver can only change an object's velocity relative to a third, uninvolved object, – possibly the “centre of mass” or the Sun. There is no change in the velocities of the two objects involved in the maneuver relative to each other. The Sun cannot be used in a gravitational slingshot because it is stationary compared to rest of the Solar System, which orbits the Sun. It may be used to send a spaceship or probe into the galaxy because the Sun revolves around the center of the Milky Way.

Powered slingshot

A powered slingshot is the use of a rocket engine at or around closest approach to a body (periapsis). The use at this point multiplies up the effect of the delta-v, and gives a bigger effect than at other times.

Fuzzy orbits

Computers did not exist when Hohmann transfer orbits were first proposed (1925) and were slow, expensive and unreliable when gravitational slingshots were developed (1959). Recent advances in computing have made it possible to exploit many more features of the gravity fields of astronomical bodies and thus calculate even lower-cost trajectories. Paths have been calculated which link the Lagrange points of the various planets into the so-called Interplanetary Transport Network. Such "fuzzy orbits" use significantly less energy than Hohmann transfers but are much, much slower. They aren't practical for human crewed missions because they generally take years or decades, but may be useful for high-volume transport of low-value commodities if humanity develops a space-based economy.

Aerobraking

Apollo command module flying at a high angle of attack to aerobrake by skimming the atmosphere (artistic rendition)

Aerobraking uses the atmosphere of the target planet to slow down. It was first used on the Apollo program where the returning spacecraft did not enter Earth orbit but instead used a S-shaped vertical descent profile (starting with an initially steep descent, followed by a leveling out, followed by a slight climb, followed by a return to a positive rate of descent continuing to splash-down in the ocean) through Earth's atmosphere to reduce its speed until the parachute system could be deployed enabling a safe landing. Aerobraking does not require a thick atmosphere – for example most Mars landers use the technique, and Mars' atmosphere is only about 1% as thick as Earth's.

Aerobraking converts the spacecraft's kinetic energy into heat, so it requires a heatshield to prevent the craft from burning up. As a result, aerobraking is only helpful in cases where the fuel needed to transport the heatshield to the planet is less than the fuel that would be required to brake an unshielded craft by firing its engines. This can be addressed by creating heatshields from material available near the target

Improved technologies and methodologies

Several technologies have been proposed which both save fuel and provide significantly faster travel than the traditional methodology of using Hohmann transfers. Some are still just theoretical, but over time, several of the theoretical approaches have been tested on spaceflight missions. For example, the Deep Space 1 mission was a successful test of an ion drive. These improved technologies typically focus on one or more of:

  • Space propulsion systems with much better fuel economy. Such systems would make it possible to travel much faster while keeping the fuel cost within acceptable limits.
  • Using solar energy and in-situ resource utilization to avoid or minimize the expensive task of shipping components and fuel up from the Earth's surface, against the Earth's gravity (see "Using non-terrestrial resources", below).
  • Novel methodologies of using energy at different locations or in different ways that can shorten transport time or reduce cost per unit mass of space transport

Besides making travel faster or cost less, such improvements could also allow greater design "safety margins" by reducing the imperative to make spacecraft lighter.

Improved rocket concepts

All rocket concepts are limited by the Tsiolkovsky rocket equation, which sets the characteristic velocity available as a function of exhaust velocity and mass ratio, of initial (M0, including fuel) to final (M1, fuel depleted) mass. The main consequence is that mission velocities of more than a few times the velocity of the rocket motor exhaust (with respect to the vehicle) rapidly become impractical, as the dry mass (mass of payload and rocket without fuel) falls to below 10% of the entire rocket's wet mass (mass of rocket with fuel).

Nuclear thermal and solar thermal rockets

Sketch of nuclear thermal rocket

In a nuclear thermal rocket or solar thermal rocket a working fluid, usually hydrogen, is heated to a high temperature, and then expands through a rocket nozzle to create thrust. The energy replaces the chemical energy of the reactive chemicals in a traditional rocket engine. Due to the low molecular mass and hence high thermal velocity of hydrogen these engines are at least twice as fuel efficient as chemical engines, even after including the weight of the reactor.

The US Atomic Energy Commission and NASA tested a few designs from 1959 to 1968. The NASA designs were conceived as replacements for the upper stages of the Saturn V launch vehicle, but the tests revealed reliability problems, mainly caused by the vibration and heating involved in running the engines at such high thrust levels. Political and environmental considerations make it unlikely such an engine will be used in the foreseeable future, since nuclear thermal rockets would be most useful at or near the Earth's surface and the consequences of a malfunction could be disastrous. Fission-based thermal rocket concepts produce lower exhaust velocities than the electric and plasma concepts described below, and are therefore less attractive solutions. For applications requiring high thrust-to-weight ratio, such as planetary escape, nuclear thermal is potentially more attractive.

Electric propulsion

Electric propulsion systems use an external source such as a nuclear reactor or solar cells to generate electricity, which is then used to accelerate a chemically inert propellant to speeds far higher than achieved in a chemical rocket. Such drives produce feeble thrust, and are therefore unsuitable for quick maneuvers or for launching from the surface of a planet. But they are so economical in their use of reaction mass that they can keep firing continuously for days or weeks, while chemical rockets use up reaction mass so quickly that they can only fire for seconds or minutes. Even a trip to the Moon is long enough for an electric propulsion system to outrun a chemical rocket – the Apollo missions took 3 days in each direction.

NASA's Deep Space One was a very successful test of a prototype ion drive, which fired for a total of 678 days and enabled the probe to run down Comet Borrelly, a feat which would have been impossible for a chemical rocket. Dawn, the first NASA operational (i.e., non-technology demonstration) mission to use an ion drive for its primary propulsion, successfully orbited the large main-belt asteroids 1 Ceres and 4 Vesta. A more ambitious, nuclear-powered version was intended for a Jupiter mission without human crew, the Jupiter Icy Moons Orbiter (JIMO), originally planned for launch sometime in the next decade. Due to a shift in priorities at NASA that favored human crewed space missions, the project lost funding in 2005. A similar mission is currently under discussion as the US component of a joint NASA/ESA program for the exploration of Europa and Ganymede.

A NASA multi-center Technology Applications Assessment Team led from the Johnson Spaceflight Center, has as of January 2011 described "Nautilus-X", a concept study for a multi-mission space exploration vehicle useful for missions beyond low Earth orbit (LEO), of up to 24 months duration for a crew of up to six. Although Nautilus-X is adaptable to a variety of mission-specific propulsion units of various low-thrust, high specific impulse (Isp) designs, nuclear ion-electric drive is shown for illustrative purposes. It is intended for integration and checkout at the International Space Station (ISS), and would be suitable for deep-space missions from the ISS to and beyond the Moon, including Earth/Moon L1, Sun/Earth L2, near-Earth asteroidal, and Mars orbital destinations. It incorporates a reduced-g centrifuge providing artificial gravity for crew health to ameliorate the effects of long-term 0g exposure, and the capability to mitigate the space radiation environment.

Fission powered rockets

The electric propulsion missions already flown, or currently scheduled, have used solar electric power, limiting their capability to operate far from the Sun, and also limiting their peak acceleration due to the mass of the electric power source. Nuclear-electric or plasma engines, operating for long periods at low thrust and powered by fission reactors, can reach speeds much greater than chemically powered vehicles.

Fusion rockets

Fusion rockets, powered by nuclear fusion reactions, would "burn" such light element fuels as deuterium, tritium, or 3He. Because fusion yields about 1% of the mass of the nuclear fuel as released energy, it is energetically more favorable than fission, which releases only about 0.1% of the fuel's mass-energy. However, either fission or fusion technologies can in principle achieve velocities far higher than needed for Solar System exploration, and fusion energy still awaits practical demonstration on Earth.

One proposal using a fusion rocket was Project Daedalus. Another fairly detailed vehicle system, designed and optimized for crewed Solar System exploration, "Discovery II", based on the D3He reaction but using hydrogen as reaction mass, has been described by a team from NASA's Glenn Research Center. It achieves characteristic velocities of >300 km/s with an acceleration of ~1.7•10−3 g, with a ship initial mass of ~1700 metric tons, and payload fraction above 10%.

Fusion rockets are considered to be a likely source of interplanetary transport for a planetary civilization.

Exotic propulsion

See the spacecraft propulsion article for a discussion of a number of other technologies that could, in the medium to longer term, be the basis of interplanetary missions. Unlike the situation with interstellar travel, the barriers to fast interplanetary travel involve engineering and economics rather than any basic physics.

Solar sails

NASA illustration of a solar-sail propelled spacecraft

Solar sails rely on the fact that light reflected from a surface exerts pressure on the surface. The radiation pressure is small and decreases by the square of the distance from the Sun, but unlike rockets, solar sails require no fuel. Although the thrust is small, it continues as long as the Sun shines and the sail is deployed.

The original concept relied only on radiation from the Sun – for example in Arthur C. Clarke's 1965 story "Sunjammer". More recent light sail designs propose to boost the thrust by aiming ground-based lasers or masers at the sail. Ground-based lasers or masers can also help a light-sail spacecraft to decelerate: the sail splits into an outer and inner section, the outer section is pushed forward and its shape is changed mechanically to focus reflected radiation on the inner portion, and the radiation focused on the inner section acts as a brake.

Although most articles about light sails focus on interstellar travel, there have been several proposals for their use within the Solar System.

Currently, the only spacecraft to use a solar sail as the main method of propulsion is IKAROS which was launched by JAXA on May 21, 2010. It has since been successfully deployed, and shown to be producing acceleration as expected. Many ordinary spacecraft and satellites also use solar collectors, temperature-control panels and Sun shades as light sails, to make minor corrections to their attitude and orbit without using fuel. A few have even had small purpose-built solar sails for this use (for example Eurostar E3000 geostationary communications satellites built by EADS Astrium).

Cyclers

It is possible to put stations or spacecraft on orbits that cycle between different planets, for example a Mars cycler would synchronously cycle between Mars and Earth, with very little propellant usage to maintain the trajectory. Cyclers are conceptually a good idea, because massive radiation shields, life support and other equipment only need to be put onto the cycler trajectory once. A cycler could combine several roles: habitat (for example it could spin to produce an "artificial gravity" effect); mothership (providing life support for the crews of smaller spacecraft which hitch a ride on it). Cyclers could also possibly make excellent cargo ships for resupply of a colony.

Space elevator

A space elevator is a theoretical structure that would transport material from a planet's surface into orbit. The idea is that, once the expensive job of building the elevator is complete, an indefinite number of loads can be transported into orbit at minimal cost. Even the simplest designs avoid the vicious circle of rocket launches from the surface, wherein the fuel needed to travel the last 10% of the distance into orbit must be lifted all the way from the surface, requiring even more fuel, and so on. More sophisticated space elevator designs reduce the energy cost per trip by using counterweights, and the most ambitious schemes aim to balance loads going up and down and thus make the energy cost close to zero. Space elevators have also sometimes been referred to as "beanstalks", "space bridges", "space lifts", "space ladders" and "orbital towers".

A terrestrial space elevator is beyond our current technology, although a lunar space elevator could theoretically be built using existing materials.

Skyhook

Non-rotating skyhook first proposed by E. Sarmont in 1990.

A skyhook is a theoretical class of orbiting tether propulsion intended to lift payloads to high altitudes and speeds. Proposals for skyhooks include designs that employ tethers spinning at hypersonic speed for catching high speed payloads or high altitude aircraft and placing them in orbit. In addition, it has been suggested that the rotating skyhook is "not engineeringly feasible using presently available materials".

Launch vehicle and spacecraft reusability

The SpaceX Starship, with maiden launch slated to be no earlier than 2020, is designed to be fully and rapidly reusable, making use of the SpaceX reusable technology that was developed during 2011–2018 for Falcon 9 and Falcon Heavy launch vehicles.

SpaceX CEO Elon Musk estimates that the reusability capability alone, on both the launch vehicle and the spacecraft associated with the Starship will reduce overall system costs per tonne delivered to Mars by at least two orders of magnitude over what NASA had previously achieved.

Staging propellants

When launching interplanetary probes from the surface of Earth, carrying all energy needed for the long-duration mission, payload quantities are necessarily extremely limited, due to the basis mass limitations described theoretically by the rocket equation. One alternative to transport more mass on interplanetary trajectories is to use up nearly all of the upper stage propellant on launch, and then refill propellants in Earth orbit before firing the rocket to escape velocity for a heliocentric trajectory. These propellants could be stored on orbit at a propellant depot, or carried to orbit in a propellant tanker to be directly transferred to the interplanetary spacecraft. For returning mass to Earth, a related option is to mine raw materials from a solar system celestial object, refine, process, and store the reaction products (propellant) on the Solar System body until such time as a vehicle needs to be loaded for launch.

On-orbit tanker transfers

As of 2019, SpaceX is developing a system in which a reusable first stage vehicle would transport a crewed interplanetary spacecraft to Earth orbit, detach, return to its launch pad where a tanker spacecraft would be mounted atop it, then both fueled, then launched again to rendezvous with the waiting crewed spacecraft. The tanker would then transfer its fuel to the human crewed spacecraft for use on its interplanetary voyage. The SpaceX Starship is a stainless steel-structure spacecraft propelled by six Raptor engines operating on densified methane/oxygen propellants. It is 55 m (180 ft)-long, 9 m (30 ft)-diameter at its widest point, and is capable of transporting up to 100 tonnes (220,000 lb) of cargo and passengers per trip to Mars, with on-orbit propellant refill before the interplanetary part of the journey.

Propellant plant on a celestial body

As an example of a funded project currently under development, a key part of the system SpaceX has designed for Mars in order to radically decrease the cost of spaceflight to interplanetary destinations is the placement and operation of a physical plant on Mars to handle production and storage of the propellant components necessary to launch and fly the Starships back to Earth, or perhaps to increase the mass that can be transported onward to destinations in the outer Solar System.

The first Starship to Mars will carry a small propellant plant as a part of its cargo load. The plant will be expanded over multiple synods as more equipment arrives, is installed, and placed into mostly-autonomous production.

The SpaceX propellant plant will take advantage of the large supplies of carbon dioxide and water resources on Mars, mining the water (H2O) from subsurface ice and collecting CO2 from the atmosphere. A chemical plant will process the raw materials by means of electrolysis and the Sabatier process to produce oxygen (O2) and methane (CH4), and then liquefy it to facilitate long-term storage and ultimate use.

Using extraterrestrial resources

Langley's Mars Ice Dome design from 2016 for a Mars base would use in-situ water to make a sort of space-igloo.[clarification needed]

Current space vehicles attempt to launch with all their fuel (propellants and energy supplies) on board that they will need for their entire journey, and current space structures are lifted from the Earth's surface. Non-terrestrial sources of energy and materials are mostly a lot further away, but most would not require lifting out of a strong gravity field and therefore should be much cheaper to use in space in the long term.

The most important non-terrestrial resource is energy, because it can be used to transform non-terrestrial materials into useful forms (some of which may also produce energy). At least two fundamental non-terrestrial energy sources have been proposed: solar-powered energy generation (unhampered by clouds), either directly by solar cells or indirectly by focusing solar radiation on boilers which produce steam to drive generators; and electrodynamic tethers which generate electricity from the powerful magnetic fields of some planets (Jupiter has a very powerful magnetic field).

Water ice would be very useful and is widespread on the moons of Jupiter and Saturn:

  • The low gravity of these moons would make them a cheaper source of water for space stations and planetary bases than lifting it up from Earth's surface.
  • Non-terrestrial power supplies could be used to electrolyse water ice into oxygen and hydrogen for use in bipropellant rocket engines.
  • Nuclear thermal rockets or Solar thermal rockets could use it as reaction mass. Hydrogen has also been proposed for use in these engines and would provide much greater specific impulse (thrust per kilogram of reaction mass), but it has been claimed that water will beat hydrogen in cost/performance terms despite its much lower specific impulse by orders of magnitude.
  • A spacecraft with an adequate water supply could carry the water under the hull, which could provide a considerable additional safety margin for the vessel and its occupants:
    • The water would absorb and conduct solar energy, thus acting as a heat shield. A vessel traveling in the inner Solar System could maintain a constant heading relative to the Sun without overheating the side of the spacecraft facing the Sun, provided the water under the hull was constantly circulated to evenly distribute the solar heat throughout the hull;
    • The water would provide some additional protection against ionizing radiation;
    • The water would act as an insulator against the extreme cold assuming it was kept heated, whether by the Sun when traveling in the inner Solar System or by an on board power source when traveling further away from the Sun;
    • The water would provide some additional protection against micrometeoroid impacts, provided the hull was compartmentalized so as to ensure any leak could be isolated to a small section of the hull.

Oxygen is a common constituent of the moon's crust, and is probably abundant in most other bodies in the Solar System. Non-terrestrial oxygen would be valuable as a source of water ice only if an adequate source of hydrogen can be found. Possible uses include:

  • In the life support systems of space ships, space stations and planetary bases.
  • In rocket engines. Even if the other propellant has to be lifted from Earth, using non-terrestrial oxygen could reduce propellant launch costs by up to 2/3 for hydrocarbon fuel, or 85% for hydrogen. The savings are so high because oxygen accounts for the majority of the mass in most rocket propellant combinations.

Unfortunately hydrogen, along with other volatiles like carbon and nitrogen, are much less abundant than oxygen in the inner Solar System.

Scientists expect to find a vast range of organic compounds in some of the planets, moons and comets of the outer Solar System, and the range of possible uses is even wider. For example, methane can be used as a fuel (burned with non-terrestrial oxygen), or as a feedstock for petrochemical processes such as making plastics. And ammonia could be a valuable feedstock for producing fertilizers to be used in the vegetable gardens of orbital and planetary bases, reducing the need to lift food to them from Earth.

Even unprocessed rock may be useful as rocket propellant if mass drivers are employed.

Design requirements for crewed interplanetary travel

In the artistic vision, the spacecraft provides artificial gravity by spinning (1989)
 

Life support

Life support systems must be capable of supporting human life for weeks, months or even years. A breathable atmosphere of at least 35 kPa (5.1 psi) must be maintained, with adequate amounts of oxygen, nitrogen, and controlled levels of carbon dioxide, trace gases and water vapor.

In October 2015, the NASA Office of Inspector General issued a health hazards report related to human spaceflight, including a human mission to Mars.

Radiation

Once a vehicle leaves low Earth orbit and the protection of Earth's magnetosphere, it enters the Van Allen radiation belt, a region of high radiation. Beyond the Van Allen belts, radiation levels generally decrease, but can fluctuate over time. These high energy cosmic rays pose a health threat. Even the minimum levels of radiation during these fluctuations is comparable to the current annual limit for astronauts in low-Earth orbit.

Scientists of Russian Academy of Sciences are searching for methods of reducing the risk of radiation-induced cancer in preparation for the mission to Mars. They consider as one of the options a life support system generating drinking water with low content of deuterium (a stable isotope of hydrogen) to be consumed by the crew members. Preliminary investigations have shown that deuterium-depleted water features certain anti-cancer effects. Hence, deuterium-free drinking water is considered to have the potential of lowering the risk of cancer caused by extreme radiation exposure of the Martian crew.

In addition, coronal mass ejections from the Sun are highly dangerous, and are fatal within a very short timescale to humans unless they are protected by massive shielding.

Reliability

Any major failure to a spacecraft en route is likely to be fatal, and even a minor one could have dangerous results if not repaired quickly, something difficult to accomplish in open space. The crew of the Apollo 13 mission survived despite an explosion caused by a faulty oxygen tank (1970).

Launch windows

For astrodynamics reasons, economic spacecraft travel to other planets is only practical within certain time windows. Outside these windows the planets are essentially inaccessible from Earth with current technology. This constrains flights and limits rescue options in the case of an emergency.

 

Monday, December 20, 2021

Deep ocean minerals

From Wikipedia, the free encyclopedia

Deep ocean minerals (DOM) are mineral nutrients (chemical elements) extracted from deep ocean water (DOW) found at ocean depths of between 250 and 1500 meters. DOW contains over 70 mineral nutrients and trace elements including magnesium (Mg), calcium (Ca) and potassium (K) in their bio ionic form. To extract these products, DOW is treated with micro filtration and reverse osmosis to desalinate and concentrate magnesium, other minerals and trace elements whilst eliminating the salt (sodium chloride).

Although research about DOM is in its early stages, as it is a source of electrolytes that can help metabolize carbohydrate, proteins and fat plus maintain bone, teeth and muscle function, health benefits are possible.

The abundance of minerals and trace elements is also of note as deficiencies in macro minerals and micro trace elements can lead to premature aging, immune dysfunction and susceptibility to cardiovascular related diseases.

The minerals and trace elements (DOM) present in DOW have three important functions:

  1. Provide the structure to our organs, tissues and bones – calcium, phosphorus, magnesium, fluorine and sulfur.
  2. The electrolyte form facilitates body fluid activity in tissues to maintain fluid balance, acid-base balance, membrane permeability, tissue irritability (including nerve transmission and muscle contraction) - sodium, potassium, chloride, calcium and magnesium in blood, all present in DOMs.
  3. Magnesium alone, potentially catalyses up to 600 enzyme and hormone reactions.

Sea water and holistic nutrition

Sea water has had a long history of therapeutic use, referred to as ‘Thalassotherapy’ it originates from the Greek word 'thalassa’. Both the Greeks and the Romans used the therapeutic effects of sea water for relaxation, regeneration and stimulation. Books on the healing power of sea water first appeared in the 17th Century and until the early 20th Century seaside holidays were both therapeutic and recreational.

In 1897, René Quinton published the first comprehensive scientific thesis advocating the medical use of sea water in his book, Seawater Organic Matrix, 1904. He discovered the similarity between nutrient profile in micro algae ocean water and our blood nutrient profile. He noted that the ratios of minerals in both fluids were similar with the exception of sodium chloride, which he adjusted. Quinton selected sea water from regions which also contained micro algae.

Ocean water profile

There are three distinctly different layers of ocean water - Surface Sea Water, Deep Ocean Water (DOW) and Very Deep Ocean Water. Each layer remains separate and autonomous from the others, moving at different speeds and directions from different kinetic forces and having different temperatures, densities and life form status.

The surface sea water layer is influenced by sunlight penetration and circulates rapidly in unison with the seasons and wind patterns to a depth of 250 meters. It supports micro and animal life.

The middle layer is DOW where the water is free of sunlight and life forms. It is characterized not only by its mineral density but cold temperature, cleanliness and trace elements. DOW is present at depths of between 250 and 1500 meters. This deep ocean current moves very slowly under the influence of density and temperature gradients. The high mineral density is attributed to the depth related pressure and the change in temperature from 20 °C+ at the surface to 8 °C at 600 meters depth generates the movement of this layer.

Very deep ocean water has been discovered in a number of troughs in the Atlantic and Pacific Oceans. Depths can range from 1500 meters to 15 kilometers and life forms are supported where volcanic processes bring heat and minerals to the seabed floor.

DOM creation begins when the summer ice melts from both Greenland and the Sub Arctic region. The melting water collects minerals and trace elements during its journey to the ocean.

The minerals make the water heavier (DOW) so the water naturally sinks to the ocean floor where it commences a 2000-year journey. It flows southwards down the Atlantic Ocean, moves around the African Cape and then inches north through the Indian Ocean and also into the western Pacific Ocean, first coming close to land at Taiwan, then Okinawa and Hawaii and then arching back south, towards the Antarctica where the changing sea water temperatures from the summer sun force the deep ocean water to the surface to feed the largest micro and macro food chain on our planet.

The east coast of Taiwan is directly adjacent to one of the largest reservoirs of accessible DOW. The southern islands off Japan and Hawaii also have land access to deep ocean water.

Taiwan´s East Coast is ideally located to siphon deep ocean water directly to the surface from the coast. It is then micro filtered, followed by reverse osmosis to desalinate and concentrate the magnesium and other minerals and trace elements at the expense of sodium chloride.

Research

Over the past 15 years, there have been many new publications (over 40) establishing DOM as statistically significant with regards improved cardiovascular and metabolic function. Recent clinical research from Taiwan, Japan and Korea also shows statistically significant therapeutic health benefits from either topical or oral consumption of DOM.

In 2009, scientists at the National Taiwan Ocean University, Keelung, Taiwan, published the first notable wistar rat treadmill fatigue study. Researchers used desalinated deep ocean water processed with ultra-filtration and reverse osmosis to increase magnesium levels and hardness. The water was sourced from the East Coast of Taiwan. The Study showed that the DOM experimental groups were significantly better than the control group with regards exhausting time and the ratio of lactic acid elimination to lactic acid increment. Summarizing the results, the researchers suggested that endurance, adaptation for exercising load and accelerating elimination in fatigue of rats could be improved when fed with DOM of higher hardness and quantity.

In 2014 scientists at Hung Kuang University, Taichung, Taiwan, published a gerbil animal trial, endorsing the findings of the wistar rat trial and again demonstrating that profiled deep ocean water, significantly improved exercise performance in gerbils subjected to treadmill exercise.

In 2013, Researchers at the department of Sports Sciences, Taipei University conducted a randomized double blind placebo controlled cross-over human study to evaluate the effect of DOW on time recovery from a fatiguing exercise conducted at 30 °C. DOM supplementation resulted in complete recovery of aerobic power within four hours. Muscle power was also elevated above placebo levels within 24 hours of recovery. Increased circulating creatine kinase (CK) and myoglobin, indicators of exercise-induced muscle damage, were completely eliminated by DOM in parallel with attenuated oxidative damage. Researchers concluded that the results provide compelling evidence that DOM contains soluble elements, which can increase human recovery following an exhaustive physical challenge.

Over the last 11 years, studies show potential application of DOM for use as a dietary therapy for prevention and complimentary treatment of cardiovascular disease. In 2003, Japanese researchers published their findings regarding the pharmacological activity of DOM directly influencing the serum lipid values of cholesterol fed rabbits.

In 2004, the same group also published new findings showing changes to LDL cholesterol in dietary induced hyperlipidemia rabbits, comparing surface sea water, DOW and a control group. The plasma LDL cholesterol level was lower in the DOW group than in the surface seawater group. Glutathione peroxidase (GPx) activity was significantly higher in the DOW group than in the control group, while there was no difference between the surface seawater and control groups. The level of lipid peroxidation was also significantly lower in the DOW group than in the control group. These early findings suggested that DOW may be useful for the prevention of hyperlipidemia and atherosclerosis compared to the surface seawater, and it was found that reduction of the LDL cholesterol level and enhancement of (GPx) activity were involved in these effects.

In 2008, a Japanese research group used Hypercholesterolemic rabbits to examine changes due to DOW diet on cardiovascular Hemodynamics (blood flow and pressure). Systolic, diastolic, pulse and mean arterial pressures and total peripheral resistance were significantly lower in the DOW group than in the control group.

The first human trial of DOM was conducted in Japan in 2008 with 16 male volunteers examining the effect of Nigari (natural salty sea or lake water) standardized on magnesium in a two way, randomized cross over study. The healthy subjects were given a fat load test prior to measuring effect of postprandial (after meal) hyperlipidaemia. They found that Mg supplementation reduced and delayed the postprandial serum and chylomicron TAG responses after fat loading. The data indicates that Mg supplementation may contribute to preventing the atherogenic process in healthy subjects.

In addition a series of research papers from Taichung University, Taiwan were published. In 2011, mice trials confirmed similar results to the Japanese findings and concluded that electro-dialyzed DOW benefited high cholesterol dietary mice and recommended that standardized DOM should be pursued as a dietary food ingredient for cardiovascular health. Similar results at the Taichung Medical University were also published in 2011 for hamsters.

In 2012, Taipei, a major human trial with 42 hypercholesterolemic volunteers were randomly divided into three groups: reverse osmotic (RO) water, DOM (Mg: 395 mg/L, hardness 1410ppm), and magnesium-chloride fortified (MCF) water (Mg: 386 mg/L, hardness 1430ppm). Serum low-density lipoprotein- cholesterol (LDL-C) was also decreased by DOM. Further, total cholesterol levels of subjects in the DOM group were significantly lower than those in the MCF water or RO water groups.

In 2013, Taichung University researchers published an extended rat trial. The study indicated that 0.1 × DOM, 1 × DOM and 2 × DOM decreased the systolic and diastolic pressures in spontaneous hypertensive rats in an eight-week experiment. DOM has been shown to reduce serum lipids and prevent atherogenesis in a hypercholesterolemic rabbit model. The results demonstrated that DSW significantly suppressed the serum cholesterol levels, reduced the lipid accumulation in liver tissues, and limited aortic fatty streaks.

In 2014, Qingdao Ocean University, China, published a paper showing when DOM was added to HepG2 cells, it decreased the lipid contents of hepatocyte through the activation of AMP-activated protein kinase, thus inhibiting the synthesis of cholesterol and fatty acid and recommended further investigation for treatment and prevention of hypolipidemic and other lifestyle-related diseases.

The DOM research points to it having a possible, positive impact on cardiovascular health. However research findings from the Biomedical Research Institute, Kyungpook National University Hospital, Daegu, Korea also extend the possible dietary use of DOM as a treatment for metabolic syndrome. In 2008 the Korean researchers reported DOM could potentially be used as an anti-obesity agent by inhibiting adipocyte differentiation, mediated through the down-regulated expression of adipogenic transcription factors and adipocyte specific proteins.

In 2009, the same Korean researchers published a further study on the anti-obesity and anti-diabetic effects of DOM in obese mice. The control group received tap water and the experimental group received DOM of hardness 1000 for 84 days. The DOM fed group compared to control group reported a 7% body weight decrease, reduced plasma glucose levels by 35.4% and significant increase of glucose disposal after 84 days. The research suggests that the anti-diabetic and anti-obesity activities of DOM were mediated by modulating the expression of diabetes and obesity specific molecules. Taken together, these results provide a possibility that continuous intake of DOM can be of dietary therapeutic value for treatment of obesity and diabetes. In 2013, a further diabetes induced mice study was conducted to establish dosage regimes. The researchers concluded that DOM provided a novel activator for glucose uptake.

Inequality (mathematics)

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Inequality...