Consciousness: Difference between revisions
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Another approach applies specifically to the study of [[self-awareness]], that is, the ability to distinguish oneself from others. In the 1970s [[Gordon G. Gallup|Gordon Gallup]] developed an operational test for self-awareness, known as the [[mirror test]]. The test examines whether animals are able to differentiate between seeing themselves in a mirror versus seeing other animals. The classic example involves placing a spot of coloring on the skin or fur near the individual's forehead and seeing if they attempt to remove it or at least touch the spot, thus indicating that they recognize that the individual they are seeing in the mirror is themselves.<ref>{{cite journal |author=[[Gordon G. Gallup|Gordon Gallup]] |title=Chimpanzees: Self recognition |journal=Science |volume=167 |pages=86–87 |year=1970 |doi=10.1126/science.167.3914.86 |pmid=4982211 |issue=3914}}</ref> Humans (older than 18 months) and other [[Hominidae|great apes]], [[bottlenose dolphin]]s, pigeons, and elephants have all been observed to pass this test.<ref>{{cite journal |title=Animal consciousness: a synthetic approach |authors=David Edelman and Anil Seth |journal=Trends in Neurosciences |year=2009 |volume=32 |pages=476–484 |pmid=19716185 |doi=10.1016/j.tins.2009.05.008}}</ref> |
Another approach applies specifically to the study of [[self-awareness]], that is, the ability to distinguish oneself from others. In the 1970s [[Gordon G. Gallup|Gordon Gallup]] developed an operational test for self-awareness, known as the [[mirror test]]. The test examines whether animals are able to differentiate between seeing themselves in a mirror versus seeing other animals. The classic example involves placing a spot of coloring on the skin or fur near the individual's forehead and seeing if they attempt to remove it or at least touch the spot, thus indicating that they recognize that the individual they are seeing in the mirror is themselves.<ref>{{cite journal |author=[[Gordon G. Gallup|Gordon Gallup]] |title=Chimpanzees: Self recognition |journal=Science |volume=167 |pages=86–87 |year=1970 |doi=10.1126/science.167.3914.86 |pmid=4982211 |issue=3914}}</ref> Humans (older than 18 months) and other [[Hominidae|great apes]], [[bottlenose dolphin]]s, pigeons, and elephants have all been observed to pass this test.<ref>{{cite journal |title=Animal consciousness: a synthetic approach |authors=David Edelman and Anil Seth |journal=Trends in Neurosciences |year=2009 |volume=32 |pages=476–484 |pmid=19716185 |doi=10.1016/j.tins.2009.05.008}}</ref> |
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And finally Hall<ref>{{cite book |author=[[Brian P. Hall]] |title=The Genesis Effect: Personal and Organizational Transformations. |year=2006 |publisher=Eugene, OR: Wipf and Stock Publishers. isbn=9781597527026}}</ref>, in his extensive research on the subject, has identified four precisely defined, hierarchical levels of consciousness: security, social, rational, and mystic. These four levels of consciousness are personal and are found in all cultures. Hall then defines sixty-four personal needs that are multi-cultural as well. These needs can be grouped in clusters that correlate precisely with the four levels of consciousness and thus afford accurate measurement of the level at which a person currently operates. Hall found other areas of awareness that correlate with the four levels of consciousness as well, including specific worldviews and broad categories of inquiry and skill development. Enlarging on Hall’s work Landré<ref>{{cite book |author=[[John K. Landré]] |title |
And finally Hall<ref>{{cite book |author=[[Brian P. Hall]] |title=The Genesis Effect: Personal and Organizational Transformations. |year=2006 |publisher=Eugene, OR: Wipf and Stock Publishers. isbn=9781597527026}}</ref>, in his extensive research on the subject, has identified four precisely defined, hierarchical levels of consciousness: security, social, rational, and mystic. These four levels of consciousness are personal and are found in all cultures. Hall then defines sixty-four personal needs that are multi-cultural as well. These needs can be grouped in clusters that correlate precisely with the four levels of consciousness and thus afford accurate measurement of the level at which a person currently operates. Hall found other areas of awareness that correlate with the four levels of consciousness as well, including specific worldviews and broad categories of inquiry and skill development. Enlarging on Hall’s work Landré<ref>{{cite book |author=[[John K. Landré]] |title=On the Way: Growth and Transcendence of Personal Consciousness. |year=2013 |publisher=Mustang, OK: Tate Publishing and Enterprises |isbn=978-1-62563-058-2}}</ref>, in his study of the fourth, mystic level, describes one more level of consciousness: Enlightenment. Enlightenment still occurs extremely rarely and is egoless. No personal needs remain in a person to whom Enlightenment has happened. |
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===Neural correlates=== |
===Neural correlates=== |
Revision as of 18:54, 4 December 2013
Consciousness is the quality or state of being aware of an external object or something within oneself.[1][2] It has been defined as: sentience, awareness, subjectivity, the ability to experience or to feel, wakefulness, having a sense of selfhood, and the executive control system of the mind.[3] Despite the difficulty in definition, many philosophers believe that there is a broadly shared underlying intuition about what consciousness is.[4] As Max Velmans and Susan Schneider wrote in The Blackwell Companion to Consciousness: "Anything that we are aware of at a given moment forms part of our consciousness, making conscious experience at once the most familiar and most mysterious aspect of our lives."[5]
Philosophers since the time of Descartes and Locke have struggled to comprehend the nature of consciousness and pin down its essential properties. Issues of concern in the philosophy of consciousness include whether the concept is fundamentally valid; whether consciousness can ever be explained mechanistically; whether non-human consciousness exists and if so how it can be recognized; how consciousness relates to language; whether consciousness can be understood in a way that does not require a dualistic distinction between mental and physical states or properties; and whether it may ever be possible for computing machines like computers or robots to be conscious.
At one time consciousness was viewed with skepticism by many scientists, but in recent years it has become a significant topic of research in psychology and neuroscience. The primary focus is on understanding what it means biologically and psychologically for information to be present in consciousness—that is, on determining the neural and psychological correlates of consciousness. The majority of experimental studies assess consciousness by asking human subjects for a verbal report of their experiences (e.g., "tell me if you notice anything when I do this"). Issues of interest include phenomena such as subliminal perception, blindsight, denial of impairment, and altered states of consciousness produced by psychoactive drugs or spiritual or meditative techniques.
In medicine, consciousness is assessed by observing a patient's arousal and responsiveness, and can be seen as a continuum of states ranging from full alertness and comprehension, through disorientation, delirium, loss of meaningful communication, and finally loss of movement in response to painful stimuli.[6] Issues of practical concern include how the presence of consciousness can be assessed in severely ill, comatose, or anesthetized people, and how to treat conditions in which consciousness is impaired or disrupted.[7]
Etymology and early history
The origin of the modern concept of consciousness is often attributed to John Locke's Essay Concerning Human Understanding, published in 1690.[8] Locke defined consciousness as "the perception of what passes in a man's own mind".[9] His essay influenced the 18th-century view of consciousness, and his definition appeared in Samuel Johnson's celebrated Dictionary (1755).[10]
The earliest English language uses of "conscious" and "consciousness" date back, however, to the 1500s. The English word "conscious" originally derived from the Latin conscius (con- "together" + scio "to know"), but the Latin word did not have the same meaning as our word—it meant knowing with, in other words having joint or common knowledge with another.[11] There were, however, many occurrences in Latin writings of the phrase conscius sibi, which translates literally as "knowing with oneself", or in other words sharing knowledge with oneself about something. This phrase had the figurative meaning of knowing that one knows, as the modern English word "conscious" does. In its earliest uses in the 1500s, the English word "conscious" retained the meaning of the Latin conscius. For example, Thomas Hobbes in Leviathan wrote: "Where two, or more men, know of one and the same fact, they are said to be Conscious of it one to another."[12] The Latin phrase conscius sibi, whose meaning was more closely related to the current concept of consciousness, was rendered in English as "conscious to oneself" or "conscious unto oneself". For example, Archbishop Ussher wrote in 1613 of "being so conscious unto myself of my great weakness".[13] Locke's definition from 1690 illustrates that a gradual shift in meaning had taken place.
A related word was conscientia, which primarily means moral conscience. In the literal sense, "conscientia" means knowledge-with, that is, shared knowledge. The word first appears in Latin juridical texts by writers such as Cicero.[14] Here, conscientia is the knowledge that a witness has of the deed of someone else.[15] René Descartes (1596–1650) is generally taken to be the first philosopher to use "conscientia" in a way that does not fit this traditional meaning.[16] Descartes used "conscientia" the way modern speakers would use "conscience". In Search after Truth he says "conscience or internal testimony" (conscientia vel interno testimonio).[17]
In philosophy
The philosophy of mind has given rise to many stances regarding consciousness. Any attempt to impose an organization on them is bound to be somewhat arbitrary. Stuart Sutherland exemplified the difficulty in the entry he wrote for the 1989 version of the Macmillan Dictionary of Psychology:
Consciousness—The having of perceptions, thoughts, and feelings; awareness. The term is impossible to define except in terms that are unintelligible without a grasp of what consciousness means. Many fall into the trap of equating consciousness with self-consciousness—to be conscious it is only necessary to be aware of the external world. Consciousness is a fascinating but elusive phenomenon: it is impossible to specify what it is, what it does, or why it has evolved. Nothing worth reading has been written on it.[18]
Most writers on the philosophy of consciousness have been concerned to defend a particular point of view, and have organized their material accordingly. For surveys, the most common approach is to follow a historical path by associating stances with the philosophers who are most strongly associated with them, for example Descartes, Locke, Kant, etc. An alternative is to organize philosophical stances according to basic issues.
The validity of the concept
Philosophers and non-philosophers differ in their intuitions about what consciousness is.[19] While most people have a strong intuition for the existence of what they refer to as consciousness,[20] skeptics argue that this intuition is false, either because the concept of consciousness is intrinsically incoherent, or because our intuitions about it are based in illusions. Gilbert Ryle, for example, argued that traditional understanding of consciousness depends on a Cartesian dualist outlook that improperly distinguishes between mind and body, or between mind and world. He proposed that we speak not of minds, bodies, and the world, but of individuals, or persons, acting in the world. Thus, by speaking of "consciousness" we end up misleading ourselves by thinking that there is any sort of thing as consciousness separated from behavioral and linguistic understandings.[21] More generally, many philosophers and scientists have been unhappy about the difficulty of producing a definition that does not involve circularity or fuzziness.[18]
Types of consciousness
Many philosophers have argued that consciousness is a unitary concept that is understood intuitively by the majority of people in spite of the difficulty in defining it.[20] Others, though, have argued that the level of disagreement about the meaning of the word indicates that it either means different things to different people (for instance, the objective versus subjective aspects of consciousness), or else is an umbrella term encompassing a variety of distinct meanings with no simple element in common.[22]
Ned Block proposed a distinction between two types of consciousness that he called phenomenal (P-consciousness) and access (A-consciousness).[23] P-consciousness, according to Block, is simply raw experience: it is moving, colored forms, sounds, sensations, emotions and feelings with our bodies and responses at the center. These experiences, considered independently of any impact on behavior, are called qualia. A-consciousness, on the other hand, is the phenomenon whereby information in our minds is accessible for verbal report, reasoning, and the control of behavior. So, when we perceive, information about what we perceive is access conscious; when we introspect, information about our thoughts is access conscious; when we remember, information about the past is access conscious, and so on. Although some philosophers, such as Daniel Dennett, have disputed the validity of this distinction,[24] others have broadly accepted it. David Chalmers has argued that A-consciousness can in principle be understood in mechanistic terms, but that understanding P-consciousness is much more challenging: he calls this the hard problem of consciousness.[25]
Some philosophers believe that Block's two types of consciousness are not the end of the story. William Lycan, for example, argued in his book Consciousness and Experience that at least eight clearly distinct types of consciousness can be identified (organism consciousness; control consciousness; consciousness of; state/event consciousness; reportability; introspective consciousness; subjective consciousness; self-consciousness)—and that even this list omits several more obscure forms.[26]
Mind–body problem
The first influential philosopher to discuss this question specifically was Descartes, and the answer he gave is known as Cartesian dualism. Descartes proposed that consciousness resides within an immaterial domain he called res cogitans (the realm of thought), in contrast to the domain of material things, which he called res extensa (the realm of extension).[27] He suggested that the interaction between these two domains occurs inside the brain, perhaps in a small midline structure called the pineal gland.[28]
Although it is widely accepted that Descartes explained the problem cogently, few later philosophers have been happy with his solution, and his ideas about the pineal gland have especially been ridiculed.[29] Alternative solutions, however, have been very diverse. They can be divided broadly into two categories: dualist solutions that maintain Descartes' rigid distinction between the realm of consciousness and the realm of matter but give different answers for how the two realms relate to each other; and monist solutions that maintain that there is really only one realm of being, of which consciousness and matter are both aspects. Each of these categories itself contains numerous variants. The two main types of dualism are substance dualism (which holds that the mind is formed of a distinct type of substance not governed by the laws of physics) and property dualism (which holds that the laws of physics are universally valid but cannot be used to explain the mind). The three main types of monism are physicalism (which holds that the mind consists of matter organized in a particular way), idealism (which holds that only thought truly exists, and matter is merely an illusion), and neutral monism (which holds that both mind and matter are aspects of a distinct essence that is itself identical to neither of them). There are also, however, a large number of idiosyncratic theories that cannot cleanly be assigned to any of these camps.[30]
Since the dawn of Newtonian science with its vision of simple mechanical principles governing the entire universe, some philosophers have been tempted by the idea that consciousness could be explained in purely physical terms. The first influential writer to propose such an idea explicitly was Julien Offray de La Mettrie, in his book Man a Machine (L'homme machine). His arguments, however, were very abstract.[31] The most influential modern physical theories of consciousness are based on psychology and neuroscience. Theories proposed by neuroscientists such as Gerald Edelman[32] and Antonio Damasio,[33] and by philosophers such as Daniel Dennett,[34] seek to explain consciousness in terms of neural events occurring within the brain. Many other neuroscientists, such as Christof Koch,[35] have explored the neural basis of consciousness without attempting to frame all-encompassing global theories. At the same time, computer scientists working in the field of artificial intelligence have pursued the goal of creating digital computer programs that can simulate or embody consciousness.[36]
A few theoretical physicists have argued that classical physics is intrinsically incapable of explaining the holistic aspects of consciousness, but that quantum theory provides the missing ingredients. Several theorists have therefore proposed quantum mind (QM) theories of consciousness.[37] Notable theories falling into this category include the holonomic brain theory of Karl Pribram and David Bohm, and the Orch-OR theory formulated by Stuart Hameroff and Roger Penrose. Some of these QM theories offer descriptions of phenomenal consciousness, as well as QM interpretations of access consciousness. None of the quantum mechanical theories has been confirmed by experiment. Recent publications by G. Guerreshi, J. Cia, S. Popescu, and H. Briegel[38] could falsify proposals such as those of Hameroff, which rely on quantum entanglement in protein. At the present time many scientists and philosophers consider the arguments for an important role of quantum phenomena to be unconvincing.[39]
Apart from the general question of the "hard problem" of consciousness, roughly speaking, the question of how mental experience arises from a physical basis,[40] a more specialized question is how to square the subjective notion that we are in control of our decisions (at least in some small measure) with the customary view of causality that subsequent events are caused by prior events. The topic of free will is the philosophical and scientific examination of this conundrum.
Problem of other minds
Many philosophers consider experience to be the essence of consciousness, and believe that experience can only fully be known from the inside, subjectively. But if consciousness is subjective and not visible from the outside, why do the vast majority of people believe that other people are conscious, but rocks and trees are not?[41] This is called the problem of other minds.[42] It is particularly acute for people who believe in the possibility of philosophical zombies, that is, people who think it is possible in principle to have an entity that is physically indistinguishable from a human being and behaves like a human being in every way but nevertheless lacks consciousness.[43]
The most commonly given answer is that we attribute consciousness to other people because we see that they resemble us in appearance and behavior: we reason that if they look like us and act like us, they must be like us in other ways, including having experiences of the sort that we do.[44] There are, however, a variety of problems with that explanation. For one thing, it seems to violate the principle of parsimony, by postulating an invisible entity that is not necessary to explain what we observe.[44] Some philosophers, such as Daniel Dennett in an essay titled The Unimagined Preposterousness of Zombies, argue that people who give this explanation do not really understand what they are saying.[45] More broadly, philosophers who do not accept the possibility of zombies generally believe that consciousness is reflected in behavior (including verbal behavior), and that we attribute consciousness on the basis of behavior. A more straightforward way of saying this is that we attribute experiences to people because of what they can do, including the fact that they can tell us about their experiences.[46]
Animal consciousness
The topic of animal consciousness is beset by a number of difficulties. It poses the problem of other minds in an especially severe form, because animals, lacking the ability to express human language, cannot tell us about their experiences.[47] Also, it is difficult to reason objectively about the question, because a denial that an animal is conscious is often taken to imply that it does not feel, its life has no value, and that harming it is not morally wrong. Descartes, for example, has sometimes been blamed for mistreatment of animals due to the fact that he believed only humans have a non-physical mind.[48] Most people have a strong intuition that some animals, such as cats and dogs, are conscious, while others, such as insects, are not; but the sources of this intuition are not obvious, and are often based on personal interactions with pets and other animals they have observed.[47]
Philosophers who consider subjective experience the essence of consciousness also generally believe, as a correlate, that the existence and nature of animal consciousness can never rigorously be known. Thomas Nagel spelled out this point of view in an influential essay titled What Is it Like to Be a Bat?. He said that an organism is conscious "if and only if there is something that it is like to be that organism — something it is like for the organism"; and he argued that no matter how much we know about an animal's brain and behavior, we can never really put ourselves into the mind of the animal and experience its world in the way it does itself.[49] Other thinkers, such as Douglas Hofstadter, dismiss this argument as incoherent.[50] Several psychologists and ethologists have argued for the existence of animal consciousness by describing a range of behaviors that appear to show animals holding beliefs about things they cannot directly perceive — Donald Griffin's 2001 book Animal Minds reviews a substantial portion of the evidence.[51]
Artifact consciousness
The idea of an artifact made conscious is an ancient theme of mythology, appearing for example in the Greek myth of Pygmalion, who carved a statue that was magically brought to life, and in medieval Jewish stories of the Golem, a magically animated homunculus built of clay.[52] However, the possibility of actually constructing a conscious machine was probably first discussed by Ada Lovelace, in a set of notes written in 1842 about the Analytical Engine invented by Charles Babbage, a precursor (never built) to modern electronic computers. Lovelace was essentially dismissive of the idea that a machine such as the Analytical Engine could think in a humanlike way. She wrote:
It is desirable to guard against the possibility of exaggerated ideas that might arise as to the powers of the Analytical Engine. ... The Analytical Engine has no pretensions whatever to originate anything. It can do whatever we know how to order it to perform. It can follow analysis; but it has no power of anticipating any analytical relations or truths. Its province is to assist us in making available what we are already acquainted with.[53]
One of the most influential contributions to this question was an essay written in 1950 by pioneering computer scientist Alan Turing, titled Computing Machinery and Intelligence. Turing disavowed any interest in terminology, saying that even "Can machines think?" is too loaded with spurious connotations to be meaningful; but he proposed to replace all such questions with a specific operational test, which has become known as the Turing test.[54] To pass the test, a computer must be able to imitate a human well enough to fool interrogators. In his essay Turing discussed a variety of possible objections, and presented a counterargument to each of them. The Turing test is commonly cited in discussions of artificial intelligence as a proposed criterion for machine consciousness; it has provoked a great deal of philosophical debate. For example, Daniel Dennett and Douglas Hofstadter argue that anything capable of passing the Turing test is necessarily conscious,[55] while David Chalmers argues that a philosophical zombie could pass the test, yet fail to be conscious.[56]
In a lively exchange over what has come to be referred to as "the Chinese room argument", John Searle sought to refute the claim of proponents of what he calls "strong artificial intelligence (AI)" that a computer program can be conscious, though he does agree with advocates of "weak AI" that computer programs can be formatted to "simulate" conscious states. His own view is that consciousness has subjective, first-person causal powers by being essentially intentional due simply to the way human brains function biologically; conscious persons can perform computations, but consciousness is not inherently computational the way computer programs are. To make a Turing machine that speaks Chinese, Searle imagines a room stocked with computers and algorithms programmed to respond to Chinese questions, i.e., Turing machines, programmed to correctly answer in Chinese any questions asked in Chinese. Searle argues that with such a machine, he would be able to process the inputs to outputs perfectly without having any understanding of Chinese, nor having any idea what the questions and answers could possibly mean. And this is all a current computer program would do. If the experiment were done in English, since Searle knows English, he would be able to take questions and give answers without any algorithms for English questions, and he would be affectively aware of what was being said and the purposes it might serve. Searle would pass the Turing test of answering the questions in both languages, but he is only conscious of what he is doing when he speaks English. Another way of putting the argument is to say that computational computer programs can pass the Turing test for processing the syntax of a language, but that semantics cannot be reduced to syntax in the way strong AI advocates hoped. Processing semantics is conscious and intentional because we use semantics to consciously produce meaning by what we say.[57]
In the literature concerning artificial intelligence, Searle's essay has been second only to Turing's in the volume of debate it has generated.[57] Searle himself was vague about what extra ingredients it would take to make a machine conscious: all he proposed was that what was needed was "causal powers" of the sort that the brain has and that computers lack. But other thinkers sympathetic to his basic argument have suggested that the necessary (though perhaps still not sufficient) extra conditions may include the ability to pass not just the verbal version of the Turing test, but the robotic version,[58] which requires grounding the robot's words in the robot's sensorimotor capacity to categorize and interact with the things in the world that its words are about, Turing-indistinguishably from a real person. Turing-scale robotics is an empirical branch of research on embodied cognition and situated cognition.[59]
Scientific study
For many decades, consciousness as a research topic was avoided by the majority of mainstream scientists, because of a general feeling that a phenomenon defined in subjective terms could not properly be studied using objective experimental methods.[60] In 1975 George Mandler published an influential psychological study which distinguished between slow, serial, and limited conscious processes and fast, parallel and extensive unconscious ones.[61] Starting in the 1980s, an expanding community of neuroscientists and psychologists have associated themselves with a field called Consciousness Studies, giving rise to a stream of experimental work published in books,[62] journals such as Consciousness and Cognition, and methodological work published in journals such as the Journal of Consciousness Studies, along with regular conferences organized by groups such as the Association for the Scientific Study of Consciousness.[63]
Modern scientific investigations into consciousness are based on psychological experiments (including, for example, the investigation of priming effects using subliminal stimuli), and on case studies of alterations in consciousness produced by trauma, illness, or drugs. Broadly viewed, scientific approaches are based on two core concepts. The first identifies the content of consciousness with the experiences that are reported by human subjects; the second makes use of the concept of consciousness that has been developed by neurologists and other medical professionals who deal with patients whose behavior is impaired. In either case, the ultimate goals are to develop techniques for assessing consciousness objectively in humans as well as other animals, and to understand the neural and psychological mechanisms that underlie it.[35]
Measurement
Experimental research on consciousness presents special difficulties, due to the lack of a universally accepted operational definition. In the majority of experiments that are specifically about consciousness, the subjects are human, and the criterion that is used is verbal report: in other words, subjects are asked to describe their experiences, and their descriptions are treated as observations of the contents of consciousness.[64] For example, subjects who stare continuously at a Necker cube usually report that they experience it "flipping" between two 3D configurations, even though the stimulus itself remains the same.[65] The objective is to understand the relationship between the conscious awareness of stimuli (as indicated by verbal report) and the effects the stimuli have on brain activity and behavior. In several paradigms, such as the technique of response priming, the behavior of subjects is clearly influenced by stimuli for which they report no awareness.[66]
Verbal report is widely considered to be the most reliable indicator of consciousness, but it raises a number of issues.[67] For one thing, if verbal reports are treated as observations, akin to observations in other branches of science, then the possibility arises that they may contain errors—but it is difficult to make sense of the idea that subjects could be wrong about their own experiences, and even more difficult to see how such an error could be detected.[68] Daniel Dennett has argued for an approach he calls heterophenomenology, which means treating verbal reports as stories that may or may not be true, but his ideas about how to do this have not been widely adopted.[69] Another issue with verbal report as a criterion is that it restricts the field of study to humans who have language: this approach cannot be used to study consciousness in other species, pre-linguistic children, or people with types of brain damage that impair language. As a third issue, philosophers who dispute the validity of the Turing test may feel that it is possible, at least in principle, for verbal report to be dissociated from consciousness entirely: a philosophical zombie may give detailed verbal reports of awareness in the absence of any genuine awareness.[70]
Although verbal report is in practice the "gold standard" for ascribing consciousness, it is not the only possible criterion.[67] In medicine, consciousness is assessed as a combination of verbal behavior, arousal, brain activity and purposeful movement. The last three of these can be used as indicators of consciousness when verbal behavior is absent.[71] The scientific literature regarding the neural bases of arousal and purposeful movement is very extensive. Their reliability as indicators of consciousness is disputed, however, due to numerous studies showing that alert human subjects can be induced to behave purposefully in a variety of ways in spite of reporting a complete lack of awareness.[66] Studies of the neuroscience of free will have also shown that the experiences that people report when they behave purposefully sometimes do not correspond to their actual behaviors or to the patterns of electrical activity recorded from their brains.[72]
Another approach applies specifically to the study of self-awareness, that is, the ability to distinguish oneself from others. In the 1970s Gordon Gallup developed an operational test for self-awareness, known as the mirror test. The test examines whether animals are able to differentiate between seeing themselves in a mirror versus seeing other animals. The classic example involves placing a spot of coloring on the skin or fur near the individual's forehead and seeing if they attempt to remove it or at least touch the spot, thus indicating that they recognize that the individual they are seeing in the mirror is themselves.[73] Humans (older than 18 months) and other great apes, bottlenose dolphins, pigeons, and elephants have all been observed to pass this test.[74]
And finally Hall[75], in his extensive research on the subject, has identified four precisely defined, hierarchical levels of consciousness: security, social, rational, and mystic. These four levels of consciousness are personal and are found in all cultures. Hall then defines sixty-four personal needs that are multi-cultural as well. These needs can be grouped in clusters that correlate precisely with the four levels of consciousness and thus afford accurate measurement of the level at which a person currently operates. Hall found other areas of awareness that correlate with the four levels of consciousness as well, including specific worldviews and broad categories of inquiry and skill development. Enlarging on Hall’s work Landré[76], in his study of the fourth, mystic level, describes one more level of consciousness: Enlightenment. Enlightenment still occurs extremely rarely and is egoless. No personal needs remain in a person to whom Enlightenment has happened.
Neural correlates
A major part of the scientific literature on consciousness consists of studies that examine the relationship between the experiences reported by subjects and the activity that simultaneously takes place in their brains—that is, studies of the neural correlates of consciousness. The hope is to find that activity in a particular part of the brain, or a particular pattern of global brain activity, will be strongly predictive of conscious awareness. Several brain imaging techniques, such as EEG and fMRI, have been used for physical measures of brain activity in these studies.[77]
One idea that has drawn attention for several decades is that consciousness is associated with high-frequency (gamma band) oscillations in brain activity. This idea arose from proposals in the 1980s, by Christof von der Malsburg and Wolf Singer, that gamma oscillations could solve the so-called binding problem, by linking information represented in different parts of the brain into a unified experience.[78] Rodolfo Llinás, for example, proposed that consciousness results from recurrent thalamo-cortical resonance where the specific thalamocortical systems (content) and the non-specific (centromedial thalamus) thalamocortical systems (context) interact in the gamma band frequency via synchronous oscillations.[79]
A number of studies have shown that activity in primary sensory areas of the brain is not sufficient to produce consciousness: it is possible for subjects to report a lack of awareness even when areas such as the primary visual cortex show clear electrical responses to a stimulus.[80] Higher brain areas are seen as more promising, especially the prefrontal cortex, which is involved in a range of higher cognitive functions collectively known as executive functions. There is substantial evidence that a "top-down" flow of neural activity (i.e., activity propagating from the frontal cortex to sensory areas) is more predictive of conscious awareness than a "bottom-up" flow of activity.[81] The prefrontal cortex is not the only candidate area, however: studies by Nikos Logothetis and his colleagues have shown, for example, that visually responsive neurons in parts of the temporal lobe reflect the visual perception in the situation when conflicting visual images are presented to different eyes (i.e., bistable percepts during binocular rivalry).[82]
In 2011 Graziano and Kastner[83] proposed the "attention schema" theory of awareness. In that theory specific cortical machinery, notably in the superior temporal sulcus and the temporo-parietal junction, is used to build the construct of awareness and attribute it to other people. The same cortical machinery is also used to attribute awareness to oneself. Damage to this cortical machinery can lead to deficits in consciousness such as hemispatial neglect. In the attention schema theory, the value of constructing the feature of awareness and attributing it to a person is to gain a useful predictive model of that person's attentional processing. Attention is a style of information processing in which a brain focuses its resources on a limited set of interrelated signals. Awareness, in this theory, is a useful, simplified schema that represents attentional state. To be aware of X is to construct a model of one's attentional focus on X.
Biological function and evolution
Regarding the primary function of conscious processing, a recurring idea in recent theories is that phenomenal states somehow integrate neural activities and information-processing that would otherwise be independent.[84] This has been called the integration consensus. Another example has been proposed by Gerald Edelman called dynamic core hypothesis which puts emphasis on reentrant connections that reciprocally link areas of the brain in a massively parallel manner.[85] These theories of integrative function present solutions to two classic problems associated with consciousness: differentiation and unity. They show how our conscious experience can discriminate between infinitely different possible scenes and details (differentiation) because it integrates those details from our sensory systems, while the integrative nature of consciousness in this view easily explains how our experience can seem unified as one whole despite all of these individual parts. However, it remains unspecified which kinds of information are integrated in a conscious manner and which kinds can be integrated without consciousness. Nor is it explained what specific causal role conscious integration plays, nor why the same functionality cannot be achieved without consciousness. Obviously not all kinds of information are capable of being disseminated consciously (e.g., neural activity related to vegetative functions, reflexes, unconscious motor programs, low-level perceptual analyses, etc.) and many kinds of information can be disseminated and combined with other kinds without consciousness, as in intersensory interactions such as the ventriloquism effect.[86] Hence it remains unclear why any of it is conscious. For a review of the differences between conscious and unconscious integrations, see the article of E. Morsella.[86]
As noted earlier, even among writers who consider consciousness to be a well-defined thing, there is widespread dispute about which animals other than humans can be said to possess it.[87] Thus, any examination of the evolution of consciousness is faced with great difficulties. Nevertheless, some writers have argued that consciousness can be viewed from the standpoint of evolutionary biology as an adaptation in the sense of a trait that increases fitness.[88] In his article "Evolution of consciousness", John Eccles argued that special anatomical and physical properties of the mammalian cerebral cortex gave rise to consciousness.[89] Bernard Baars proposed that once in place, this "recursive" circuitry may have provided a basis for the subsequent development of many of the functions that consciousness facilitates in higher organisms.[90] Peter Carruthers has put forth one such potential adaptive advantage gained by conscious creatures by suggesting that consciousness allows an individual to make distinctions between appearance and reality.[91] This ability would enable a creature to recognize the likelihood that their perceptions are deceiving them (e.g. that water in the distance may be a mirage) and behave accordingly, and it could also facilitate the manipulation of others by recognizing how things appear to them for both cooperative and devious ends.
Other philosophers, however, have suggested that consciousness would not be necessary for any functional advantage in evolutionary processes.[92][93] No one has given a causal explanation, they argue, of why it would not be possible for a functionally equivalent non-conscious organism (i.e., a philosophical zombie) to achieve the very same survival advantages as a conscious organism. If evolutionary processes are blind to the difference between function F being performed by conscious organism O and non-conscious organism O*, it is unclear what adaptive advantage consciousness could provide.[94] As a result, an exaptive explanation of consciousness has gained favor with some theorists that posit consciousness did not evolve as an adaptation but was an exaptation arising as a consequence of other developments such as increases in brain size or cortical rearrangement.[95]
States of consciousness
There are some states in which consciousness seems to be abolished, including sleep, coma, and death. There are also a variety of circumstances that can change the relationship between the mind and the world in less drastic ways, producing what are known as altered states of consciousness. Some altered states occur naturally; others can be produced by drugs or brain damage.[96] Altered states can be accompanied by changes in thinking, disturbances in the sense of time, feelings of loss of control, changes in emotional expression, alternations in body image and changes in meaning or significance.[97]
The two most widely accepted altered states are sleep and dreaming. Although dream sleep and non-dream sleep appear very similar to an outside observer, each is associated with a distinct pattern of brain activity, metabolic activity, and eye movement; each is also associated with a distinct pattern of experience and cognition. During ordinary non-dream sleep, people who are awakened report only vague and sketchy thoughts, and their experiences do not cohere into a continuous narrative. During dream sleep, in contrast, people who are awakened report rich and detailed experiences in which events form a continuous progression, which may however be interrupted by bizarre or fantastic intrusions. Thought processes during the dream state frequently show a high level of irrationality. Both dream and non-dream states are associated with severe disruption of memory: it usually disappears in seconds during the non-dream state, and in minutes after awakening from a dream unless actively refreshed.[98]
A variety of psychoactive drugs have notable effects on consciousness. These range from a simple dulling of awareness produced by sedatives, to increases in the intensity of sensory qualities produced by stimulants, cannabis, or most notably by the class of drugs known as psychedelics.[96] LSD, mescaline, psilocybin, and others in this group can produce major distortions of perception, including hallucinations; some users even describe their drug-induced experiences as mystical or spiritual in quality. The brain mechanisms underlying these effects are not well understood, but there is substantial evidence that alterations in the brain system that uses the chemical neurotransmitter serotonin play an essential role.[99]
There has been some research into physiological changes in yogis and people who practise various techniques of meditation. Some research with brain waves during meditation has reported differences between those corresponding to ordinary relaxation and those corresponding to meditation. It has been disputed, however, whether there is enough evidence to count these as physiologically distinct states of consciousness.[100]
The most extensive study of the characteristics of altered states of consciousness was made by psychologist Charles Tart in the 1960s and 1970s. Tart analyzed a state of consciousness as made up of a number of component processes, including exteroception (sensing the external world); interoception (sensing the body); input-processing (seeing meaning); emotions; memory; time sense; sense of identity; evaluation and cognitive processing; motor output; and interaction with the environment.[101] Each of these, in his view, could be altered in multiple ways by drugs or other manipulations. The components that Tart identified have not, however, been validated by empirical studies. Research in this area has not yet reached firm conclusions, but a recent questionnaire-based study identified eleven significant factors contributing to drug-induced states of consciousness: experience of unity; spiritual experience; blissful state; insightfulness; disembodiment; impaired control and cognition; anxiety; complex imagery; elementary imagery; audio-visual synesthesia; and changed meaning of percepts.[102]
Phenomenology
Phenomenology is a method of inquiry that attempts to examine the structure of consciousness in its own right, putting aside problems regarding the relationship of consciousness to the physical world. This approach was first proposed by the philosopher Edmund Husserl, and later elaborated by other philosophers and scientists.[103] Husserl's original concept gave rise to two distinct lines of inquiry, in philosophy and psychology. In philosophy, phenomenology has largely been devoted to fundamental metaphysical questions, such as the nature of intentionality ("aboutness"). In psychology, phenomenology largely has meant attempting to investigate consciousness using the method of introspection, which means looking into one's own mind and reporting what one observes. This method fell into disrepute in the early twentieth century because of grave doubts about its reliability, but has been rehabilitated to some degree, especially when used in combination with techniques for examining brain activity.[104]
Introspectively, the world of conscious experience seems to have considerable structure. Immanuel Kant asserted that the world as we perceive it is organized according to a set of fundamental "intuitions", which include object (we perceive the world as a set of distinct things); shape; quality (color, warmth, etc.); space (distance, direction, and location); and time.[105] Some of these constructs, such as space and time, correspond to the way the world is structured by the laws of physics; for others the correspondence is not as clear. Understanding the physical basis of qualities, such as redness or pain, has been particularly challenging. David Chalmers has called this the hard problem of consciousness.[25] Some philosophers have argued that it is intrinsically unsolvable, because qualities ("qualia") are ineffable; that is, they are "raw feels", incapable of being analyzed into component processes.[106] Most psychologists and neuroscientists reject these arguments — nevertheless it is clear that the relationship between a physical entity such as light and a perceptual quality such as color is extraordinarily complex and indirect, as demonstrated by a variety of optical illusions such as neon color spreading.[107]
In neuroscience, a great deal of effort has gone into investigating how the perceived world of conscious awareness is constructed inside the brain. The process is generally thought to involve two primary mechanisms: (1) hierarchical processing of sensory inputs, and (2) memory. Signals arising from sensory organs are transmitted to the brain and then processed in a series of stages, which extract multiple types of information from the raw input. In the visual system, for example, sensory signals from the eyes are transmitted to the thalamus and then to the primary visual cortex; inside the cerebral cortex they are sent to areas that extract features such as three-dimensional structure, shape, color, and motion.[108] Memory comes into play in at least two ways. First, it allows sensory information to be evaluated in the context of previous experience. Second, and even more importantly, working memory allows information to be integrated over time so that it can generate a stable representation of the world—Gerald Edelman expressed this point vividly by titling one of his books about consciousness The Remembered Present.[109]
Despite the large amount of information available, the most important aspects of perception remain mysterious. A great deal is known about low-level signal processing in sensory systems, but the ways by which sensory systems interact with each other, with "executive" systems in the frontal cortex, and with the language system are very incompletely understood. At a deeper level, there are still basic conceptual issues that remain unresolved.[108] Many scientists have found it difficult to reconcile the fact that information is distributed across multiple brain areas with the apparent unity of consciousness: this is one aspect of the so-called binding problem.[110] There are also some scientists who have expressed grave reservations about the idea that the brain forms representations of the outside world at all: influential members of this group include psychologist J. J. Gibson and roboticist Rodney Brooks, who both argued in favor of "intelligence without representation".[111]
Medical aspects
The medical approach to consciousness is practically oriented. It derives from a need to treat people whose brain function has been impaired as a result of disease, brain damage, toxins, or drugs. In medicine, conceptual distinctions are considered useful to the degree that they can help to guide treatments. Whereas the philosophical approach to consciousness focuses on its fundamental nature and its contents, the medical approach focuses on the amount of consciousness a person has: in medicine, consciousness is assessed as a "level" ranging from coma and brain death at the low end, to full alertness and purposeful responsiveness at the high end.[112]
Consciousness is of concern to patients and physicians, especially neurologists and anesthesiologists. Patients may suffer from disorders of consciousness, or may need to be anesthetized for a surgical procedure. Physicians may perform consciousness-related interventions such as instructing the patient to sleep, administering general anesthesia, or inducing medical coma.[112] Also, bioethicists may be concerned with the ethical implications of consciousness in medical cases of patients such as Karen Ann Quinlan,[113] while neuroscientists may study patients with impaired consciousness in hopes of gaining information about how the brain works.[114]
Assessment
In medicine, consciousness is examined using a set of procedures known as neuropsychological assessment.[71] There are two commonly used methods for assessing the level of consciousness of a patient: a simple procedure that requires minimal training, and a more complex procedure that requires substantial expertise. The simple procedure begins by asking whether the patient is able to move and react to physical stimuli. If so, the next question is whether the patient can respond in a meaningful way to questions and commands. If so, the patient is asked for name, current location, and current day and time. A patient who can answer all of these questions is said to be "oriented times three" (sometimes denoted "Ox3" on a medical chart), and is usually considered fully conscious.[115]
The more complex procedure is known as a neurological examination, and is usually carried out by a neurologist in a hospital setting. A formal neurological examination runs through a precisely delineated series of tests, beginning with tests for basic sensorimotor reflexes, and culminating with tests for sophisticated use of language. The outcome may be summarized using the Glasgow Coma Scale, which yields a number in the range 3—15, with a score of 3 indicating brain death (the lowest defined level of consciousness), and 15 indicating full consciousness. The Glasgow Coma Scale has three subscales, measuring the best motor response (ranging from "no motor response" to "obeys commands"), the best eye response (ranging from "no eye opening" to "eyes opening spontaneously") and the best verbal response (ranging from "no verbal response" to "fully oriented"). There is also a simpler pediatric version of the scale, for children too young to be able to use language.[112]
In 2013, an experimental procedure was developed to measure degrees of consciousness, the procedure involving stimulating the brain with a magnetic pulse, measuring resulting waves of electrical activity, and developing a consciousness score based on the complexity of the brain activity.[116]
Disorders of consciousness
Medical conditions that inhibit consciousness are considered disorders of consciousness.[117] This category generally includes minimally conscious state and persistent vegetative state, but sometimes also includes the less severe locked-in syndrome and more severe chronic coma.[117][118] Differential diagnosis of these disorders is an active area of biomedical research.[119][120][121] Finally, brain death results in an irreversible disruption of consciousness.[117] While other conditions may cause a moderate deterioration (e.g., dementia and delirium) or transient interruption (e.g., grand mal and petit mal seizures) of consciousness, they are not included in this category.
Disorder | Description |
---|---|
Locked-in syndrome | The patient has awareness, sleep-wake cycles, and meaningful behavior (viz., eye-movement), but is isolated due to quadriplegia and pseudobulbar palsy. |
Minimally conscious state | The patient has intermittent periods of awareness and wakefulness and displays some meaningful behavior. |
Persistent vegetative state | The patient has sleep-wake cycles, but lacks awareness and only displays reflexive and non-purposeful behavior. |
Chronic coma | The patient lacks awareness and sleep-wake cycles and only displays reflexive behavior. |
Brain death | The patient lacks awareness, sleep-wake cycles, and brain-mediated reflexive behavior. |
Anosognosia
One of the most striking disorders of consciousness goes by the name anosognosia, a Greek-derived term meaning unawareness of disease. This is a condition in which patients are disabled in some way, most commonly as a result of a stroke, but either misunderstand the nature of the problem or deny that there is anything wrong with them.[122] The most frequently occurring form is seen in people who have experienced a stroke damaging the parietal lobe in the right hemisphere of the brain, giving rise to a syndrome known as hemispatial neglect, characterized by an inability to direct action or attention toward objects located to the right with respect to their bodies. Patients with hemispatial neglect are often paralyzed on the right side of the body, but sometimes deny being unable to move. When questioned about the obvious problem, the patient may avoid giving a direct answer, or may give an explanation that doesn't make sense. Patients with hemispatial neglect may also fail to recognize paralyzed parts of their bodies: one frequently mentioned case is of a man who repeatedly tried to throw his own paralyzed right leg out of the bed he was lying in, and when asked what he was doing, complained that somebody had put a dead leg into the bed with him. An even more striking type of anosognosia is Anton–Babinski syndrome, a rarely occurring condition in which patients become blind but claim to be able to see normally, and persist in this claim in spite of all evidence to the contrary.[123]
Stream of consciousness
William James is usually credited with popularizing the idea that human consciousness flows like a stream, in his Principles of Psychology of 1890. According to James, the "stream of thought" is governed by five characteristics: "(1) Every thought tends to be part of a personal consciousness. (2) Within each personal consciousness thought is always changing. (3) Within each personal consciousness thought is sensibly continuous. (4) It always appears to deal with objects independent of itself. (5) It is interested in some parts of these objects to the exclusion of others".[124] A similar concept appears in Buddhist philosophy, expressed by the Sanskrit term Citta-saṃtāna, which is usually translated as mindstream or "mental continuum". In the Buddhist view, though, the "mindstream" is viewed primarily as a source of noise that distracts attention from a changeless underlying reality.[125]
In the west, the primary impact of the idea has been on literature rather than science: stream of consciousness as a narrative mode means writing in a way that attempts to portray the moment-to-moment thoughts and experiences of a character. This technique perhaps had its beginnings in the monologues of Shakespeare's plays, and reached its fullest development in the novels of James Joyce and Virginia Woolf, although it has also been used by many other noted writers.[126]
Here for example is a passage from Joyce's Ulysses about the thoughts of Molly Bloom:
Yes because he never did a thing like that before as ask to get his breakfast in bed with a couple of eggs since the City Arms hotel when he used to be pretending to be laid up with a sick voice doing his highness to make himself interesting for that old faggot Mrs Riordan that he thought he had a great leg of and she never left us a farthing all for masses for herself and her soul greatest miser ever was actually afraid to lay out 4d for her methylated spirit telling me all her ailments she had too much old chat in her about politics and earthquakes and the end of the world let us have a bit of fun first God help the world if all the women were her sort down on bathingsuits and lownecks of course nobody wanted her to wear them I suppose she was pious because no man would look at her twice I hope Ill never be like her a wonder she didnt want us to cover our faces but she was a welleducated woman certainly and her gabby talk about Mr Riordan here and Mr Riordan there I suppose he was glad to get shut of her.[127]
Spiritual approaches
To most philosophers, the word "consciousness" connotes the relationship between the mind and the world. To writers on spiritual or religious topics, it frequently connotes the relationship between the mind and God, or the relationship between the mind and deeper truths that are thought to be more fundamental than the physical world. Krishna consciousness, for example, is a term used to mean an intimate linkage between the mind of a worshipper and the god Krishna.[128] The mystical psychiatrist Richard Maurice Bucke distinguished between three types of consciousness: Simple Consciousness, awareness of the body, possessed by many animals; Self Consciousness, awareness of being aware, possessed only by humans; and Cosmic Consciousness, awareness of the life and order of the universe, possessed only by humans who are enlightened.[129] Many more examples could be given. The most thorough account of the spiritual approach may be Ken Wilber's book The Spectrum of Consciousness, a comparison of western and eastern ways of thinking about the mind. Wilber described consciousness as a spectrum with ordinary awareness at one end, and more profound types of awareness at higher levels.[130]
See also
- Antahkarana
- Being
- Blindsight
- Causality
- Centipede's dilemma
- Cognitive neuroscience
- Cognitive psychology
- Chaitanya (consciousness)
- Ego
- Explanation
- Explanatory gap
- Functionalism (philosophy of mind)
- Hard problem of consciousness
- Merkwelt
- Mind
- Mind-body problem
- Mirror neuron
- Modularity of mind
- Neuropsychological assessment
- Neuropsychology
- Orch-OR
- Phenomenology
- Philosophical zombie
- Philosophy of mind
- Problem of other minds
- Quantum mind
- Reverse engineering
- Sentience
- Solipsism
- Turing test
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ignored (help) - ^ Brian P. Hall (2006). The Genesis Effect: Personal and Organizational Transformations. Eugene, OR: Wipf and Stock Publishers. isbn=9781597527026.
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(help) - ^ John K. Landré (2013). On the Way: Growth and Transcendence of Personal Consciousness. Mustang, OK: Tate Publishing and Enterprises. ISBN 978-1-62563-058-2.
- ^ The Quest for Consciousness. Englewood CO: Roberts & Company. 2004. pp. 16–19. ISBN 978-0-9747077-0-9.
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ignored (help) - ^ Wolf Singer. "Binding by synchrony". Scholarpedia. Retrieved 2011-10-26.
- ^ Rodolfo Llinás (2002). I of the Vortex. From Neurons to Self. MIT Press. ISBN 978-0-262-62163-2.
- ^ Koch, The Quest for Consciousness, pp. 105–116
- ^ "A framework for consciousness" (PDF). Nature Neuroscience. 6: 119–126. 2003. doi:10.1038/nn0203-119. PMID 12555104.
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ignored (help) - ^ Koch, The Quest for Consciousness, pp. 269–286
- ^ Graziano, M.S.A. and Kastner, S (2011). "Human consciousness and its relationship to social neuroscience: A novel hypothesis". Cog. Neurosci. 2: 98–113.
{{cite journal}}
: CS1 maint: multiple names: authors list (link) - ^ "The conscious access hypothesis: Origins and recent evidence". Trends in Cognitive Sciences. 6: 47–52. doi:10.1016/S1364-6613(00)01819-2. PMID 11849615.
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ignored (help) - ^ Seth, Anil (2006). "Theories and measures of consciousness: An extended framework". Proceedings of the National Academy of Sciences. 103 (28). doi:10.1073/pnas.0604347103.
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: Unknown parameter|coauthors=
ignored (|author=
suggested) (help) - ^ a b "The function of phenomenal states: Supramodular Interaction Theory". Psychological Review. 112 (4): 1000–1021. 2005. doi:10.1037/0033-295X.112.4.1000. PMID 16262477.
{{cite journal}}
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ignored (help) - ^ S. Budiansky (1998). If a Lion Could Talk: Animal Intelligence and the Evolution of Consciousness. The Free Press. ISBN 978-0-684-83710-9.
- ^ "Adaptive Complexity and Phenomenal Consciousness". Philosophy of Science. 67: 648–670. 2000. doi:10.1086/392859.
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: Unknown parameter|authors=
ignored (help) - ^ John Eccles (1992). "Evolution of consciousness". Proc. Natl. Acad. Sci. U.S.A. 89: 7320–7324. doi:10.1073/pnas.89.16.7320. PMC 49701. PMID 1502142.
- ^ Bernard Baars (1993). A Cognitive Theory of Consciousness. Cambridge University Press. ISBN 978-0-521-42743-2.
- ^ Carruthers, Peter (2004). Phenomenal Consciousness: A Naturalistic Theory. Cambridge, UK: Cambridge University Press.
- ^ "Zombies and the function of consciousness". Journal of Consciousness Studies. 2: 313–321. 1995.
{{cite journal}}
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ignored (help) - ^ Rosenthal, David (2008). "Consciousness and its function". Neuropsychologia. 46: 829–840. doi:10.1016/j.neuropsychologia.2007.11.012.
- ^ Stevan Harnad (2002). "Turing indistinguishability and the Blind Watchmaker". In J. H. Fetzer (ed.). Consciousness Evolving. John Benjamins. Retrieved 2011-10-26.
- ^ http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3790330/
- ^ a b "Psychobiology of altered states of consciousness". Psychological Bulletin. 131: 98–127. 2005. doi:10.1037/0033-2909.131.1.98. PMID 15631555.
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: Unknown parameter|authors=
ignored (help) - ^ Schacter, Daniel; Gilbert, Daniel; Wegner, Daniel (2011). Psychology 2nd Ed. 41 Madison Avenue, New York, NY 10010: Worth Publishers. p. 190. ISBN 1-4292-3719-8.
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: CS1 maint: location (link) - ^ "Dreaming and the brain: Toward a cognitive neuroscience of conscious states". Sleep and Dreaming: Scientific Advances and Reconsiderations. Cambridge University Press. 2003. ISBN 978-0-521-00869-3.
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ignored (help); Unknown parameter|editors=
ignored (|editor=
suggested) (help) - ^ Michael Lyvers (2003). "The neurochemistry of psychedelic experiences" (PDF). ePublications@bond.
- ^ The Physical and Psychological Effects of Meditation: A Review of Contemporary Research With a Comprehensive Bibliography, 1931–1996. Institute of Noetic Sciences. 1997.
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: Unknown parameter|authors=
ignored (help) - ^ Charles Tart (2001). "Ch. 2: The components of consciousness". States of Consciousness. IUniverse.com. ISBN 978-0-595-15196-7. Retrieved 2011-10-05.
- ^ "Psychometric evaluation of the altered states of consciousness rating scale (OAV)". PLoS ONE. 8. 2010. doi:10.1371/journal.pone.0012412. PMC 2930851. PMID 20824211.
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: Unknown parameter|authors=
ignored (help)CS1 maint: unflagged free DOI (link) - ^ Robert Sokolowski (2000). Introduction to Phenomenology. Cambridge University Press. pp. 211–227. ISBN 978-0-521-66792-0.
- ^ K. Anders Ericsson (2003). "Valid and non-reactive verbalization of thoughts during performance of tasks: towards a solution to the central problems of introspection as a source of scientific evidence". Trusting the Subject?: The Use of Introspective Evidence in Cognitive Science, Volume 1. Imprint Academic. pp. 1–18. ISBN 978-0-907845-56-0.
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: Unknown parameter|editors=
ignored (|editor=
suggested) (help) - ^ Andrew Brook. "Kant's view of the mind and consciousness of self". Stanford Encyclopedia of Philosophy. Note: translating Kant's terminology into English is often difficult.
- ^ Joseph Levine (1998). "On leaving out what it's like". The Nature of Consciousness: Philosophical Debates. MIT Press. ISBN 978-0-262-52210-6.
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ignored (|editor=
suggested) (help) - ^ Steven K. Shevell (2003). "Color appearance". In Steven K. Shevell (ed.). The Science of Color. Elsevier. pp. 149–190. ISBN 978-0-444-51251-2.
- ^ a b Philosophical Foundations of Neuroscience. Wiley-Blackwell. 2003. pp. 121–147. ISBN 978-1-4051-0838-6.
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ignored (help) - ^ Gerald Edelman (1989). The Remembered Present: A Biological Theory of Consciousness. Basic Books. pp. 109–118. ISBN 978-0-465-06910-1.
- ^ Koch, The Quest for Consciousness, pp. 167–170
- ^ "Intelligence without representation". Artificial Intelligence. 47: 139–159. 1991. doi:10.1016/0004-3702(91)90053-M.
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: Unknown parameter|authors=
ignored (help) - ^ a b c Hal Blumenfeld (2009). "The neurological examination of consciousness". The Neurology of Consciousness: Cognitive Neuroscience and Neuropathology. Academic Press. ISBN 978-0-12-374168-4.
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ignored (|editor=
suggested) (help) - ^ Kinney HC, Korein J, Panigrahy A, Dikkes P, Goode R (26 May 1994). "Neuropathological findings in the brain of Karen Ann Quinlan -- the role of the thalamus in the persistent vegetative state". N Engl J Med. 330 (21): 1469–1475. doi:10.1056/NEJM199405263302101. PMID 8164698.
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: CS1 maint: multiple names: authors list (link) - ^ Koch, The Quest for Consciousness, pp. 216–226
- ^ Essentials of Abnormal Psychology. Cengage Learning. 2009. pp. 74–75. ISBN 978-0-495-59982-1.
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ignored (help) Note: A patient who can additionally describe the current situation may be referred to as "oriented times four". - ^ Neergaard, Lauren (August 14, 2013). "New tool peeks into brain to measure consciousness". Associated Press through NBC News. Archived from the original on August 14, 2013.
- ^ a b c Bernat JL (8 Apr 2006). "Chronic disorders of consciousness". Lancet. 367 (9517): 1181–1192. doi:10.1016/S0140-6736(06)68508-5. PMID 16616561.
- ^ Bernat JL (20 Jul 2010). "The natural history of chronic disorders of consciousness". Neurol. 75 (3): 206–207. doi:10.1212/WNL.0b013e3181e8e960. PMID 20554939.
- ^ Coleman MR, Davis MH, Rodd JM, Robson T, Ali A, Owen AM, Pickard JD (September 2009). "Towards the routine use of brain imaging to aid the clinical diagnosis of disorders of consciousness". Brain. 132 (9): 2541–2552. doi:10.1093/brain/awp183. PMID 19710182.
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: CS1 maint: multiple names: authors list (link) - ^ Monti MM, Vanhaudenhuyse A, Coleman MR, Boly M, Pickard JD, Tshibanda L, Owen AM, Laureys S (18 Feb 2010). "Willful modulation of brain activity in disorders of consciousness". N Engl J Med. 362 (7): 579–589. doi:10.1056/NEJMoa0905370. PMID 20130250.
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: CS1 maint: multiple names: authors list (link) - ^ Seel RT, Sherer M, Whyte J, Katz DI, Giacino JT, Rosenbaum AM, Hammond FM, Kalmar K, Pape TL; et al. (December 2010). "Assessment scales for disorders of consciousness: evidence-based recommendations for clinical practice and research". Arch Phys Med Rehabil. 91 (12): 1795–1813. doi:10.1016/j.apmr.2011.01.002. PMID 21112421.
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(help)CS1 maint: multiple names: authors list (link) - ^ "Introduction". Awareness of Deficit After Brain Injury: Clinical and Theoretical Issues. Oxford University Press. 1991. pp. 3–16. ISBN 0-19-505941-7.
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ignored (help); Unknown parameter|editors=
ignored (|editor=
suggested) (help) - ^ "Anosognosia: possible neuropsychological mechanisms". Awareness of Deficit After Brain Injury: Clinical and Theoretical Issues. Oxford University Press. 1991. pp. 53–62. ISBN 0-19-505941-7.
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ignored (help); Unknown parameter|editors=
ignored (|editor=
suggested) (help) - ^ The Principles of Psychology, Volume 1. H. Holt. 1890. p. 225.
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ignored (help) - ^ Dzogchen Rinpoche (2007). "Taming the mindstream". In Doris Wolter (ed.). Losing the Clouds, Gaining the Sky: Buddhism and the Natural Mind. Wisdom Publications. pp. 81–92. ISBN 978-0-86171-359-2.
- ^ Stream of Consciousness in the Modern Novel. University of California Press. 1954. pp. 23–49. ISBN 978-0-520-00585-3.
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ignored (help) - ^ Ulysses. BompaCrazy.com. 1990. p. 620.
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ignored (help) - ^ Lynne Gibson (2002). Modern World Religions: Hinduism. Heinemann Educational Publishers. pp. 2–4. ISBN 0-435-33619-3.
- ^ Cosmic Consciousness: A Study in the Evolution of the Human Mind. Innes & Sons. 1905. pp. 1–2.
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ignored (help) - ^ The Spectrum of Consciousness. Motilal Banarsidass Publ. 2002. pp. 3–16. ISBN 978-81-208-1848-4.
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ignored (help)
External links
- Anthropology of Consciousness
- "Consciousness". Internet Encyclopedia of Philosophy.
- Consciousness and Cognition
- Consciousness & Emotion
- Consciousness Studies at the Open Directory Project
- Journal of Consciousness Studies
- Psyche (ASSC)
- Quantum Mind
- Evolution and Function of Consciousness Alan Turing Year