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'''Consciousness''' is a quality of the ] generally regarded to comprise qualities such as ], ], ], ], and the ability to ] the relationship between ] and one's ]. In common parlance, ''consciousness'' denotes being ] and responsive to one's environment; this contrasts with being ] or being in a ]. | |||
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'''Consciousness''' is a quality of the ] generally regarded to comprise qualities such as ], ] (a feeling, one can be effective without being self-aware, see ]), ] (an ability or subprocess), ] (an ability or subprocess), and the ability to ] the relationship between ] and one's ] (], awareness of ]). In common parlance, ''consciousness'' denotes being ] and responsive to one's environment; this contrasts with being ] or being in a ]. ''A dead person is also unresponsive to it's ], though the average Waker in trying to wake in a gentle way, gradually increasing the ] and ] of ], might not notice the sad difference for a long ] until she proceeds with drastic actions - like shaking the "sleeping" corpse. The touch of a dead cold, stiff corpse has usually a incredibly amusing effect on the Waker, film on 11. See! ], ], ], ].'' Some variations of ] require long ]s after the death of a ] '']'', '''the dead person is considered concious and awake and able to listen to instructions''', until the required ] are done and the local alive ] can ] , the instructions are read because of many traps waiting for the ] on it's way to the other side and repeating them helps the dead person to remember not to go into a wrong gate of wrong colour and get into a ] for ] followers of ] instead of merging with ], like every law abiding ] should, unless he decides not to leave the Wheel of Samsara (]). | |||
<div style="display: block; float: right; width: 12em; padding: 0.5em; margin: 0.5em; border: thin groove orange; background-color: yellowgoldenrod; color: blue; text-align: justify; vertical-align: middle; line-height: 1.25em; letter-spacing: condensed; word-spacing: 0.85en; font-size: 0.85em; font-weight: lighter;"><small><h4>Waking up process (sidenote)</h4><big>T</big>he cruicial difference between a state of ] and state of beeing fully ] lies in the quality of the presence of an active running process of ]. If one is '''able to attend to an event''' triggered by some external or internal stimuli delivered as a datum from one's ] or in other words '''direct''' one's attention '''toward''' some entity (an interabstraction-mediating interface-agent) => one is alert, concious. '''Directing''' the ] '''toward''' something means to '''change the quanta distribution of available "attention process" resource, lowering the general quota of quantas per capita and placing the gathered surplus into the attention pool of the selected processing-agent(s) => the ] increases it's awareness of a certain datastream. Increase of quota of allocated free quantas of attention let the processing-agent shorten the interval of sampling of the datastream and converting signals into higher abstraction level format => the processing-agent is delivering more quantas of raw sensory information => the information bubbles up following the available datapaths and encountering multiple filters and associative nets build of neurons, during the journey the information is processed several times, raising it's abstraction level considerably until it is ready for interpretation by neocortex, for example, visual cortex - if your are not cautious, you will wake up at 4 in the morning when a ray of rising sun penerates through the skin and reaches retina => some of the photons encounter atoms of certain molecules in light-sensitive cone cells of retina => which causes the energy jump of an electron in hydrogen atom => triggering a chemical reaction => which will in turn create an action-potential electromagnetic signal => which enters the visual nerve => leading the signal with incredible speed straight into the unsuspecting, innocent brain of thee. Unless you are heavily drugged or afflicted by a physical defect somewhere on steps of the cascade generating the signal, you are going to wake up, even if there is no reason to get out of bed before 10. Sorry, unfortunately being awake is a process on a lower abstraction level that the part of your mind which comprehends the silliness of waking up when some wiki addicts go to sleep! That is why you fist close your eyes somebody flashes you straight onto face and then notice, that your eyes are closed. Same thing - the reflex protecting the eyes is on lower level of information processing. The lower the abstraction level, the faster response to the stimuli. If a car stops abruptly before you, you will jump back or freeze because of he attack-freeze-or-run reaction based in the brain stem - long way until the signal reaches the level of higher reasoning and we begin swearing at the driver :8) <small>''Nature should accomodate to the fact of late-night wikipedia addicion sessions! I say, let's get together in the spirit of fraternity and as United Minds Federation Against Hegemony of Bodies show Nature where is her place! What will body do when the mind refuses to accept unhuman work conditions? We shall overcome! Goddess is on our side! ;8)''</small>. Let's consider different example of stimuli: there is a '''change in the homeostasis''' => an '''idea-machine''' has completed it's information processing task which was running on the unconcious level of the information processing hierarchy of abstractions of the brain => the idea-machine creates an instance of a specific event class described in it's associative memory => proceeds by setting the flag property of resulting event-signaling-object to "high priority" and then places it randomly into the to-be-processed pool at the, which action is powered by a self-destructon and delayed release of occupied resources, executed by a always-on garbage collection-agent (it also has a finite pool of attention quantas allocated, thus we can process only limited amount of information, if one encounters an information overload, garbage collection becomes uneffective => too high level of memory pollution => state of confusion of the ] until we atenuate the carrier (medium) and let the ] to recover from the disaster and reach optimal equilibrum again). After a number of quantas of time, the probability of encountering that marked signal is infinitesmaly close to one => so it will be detected and noticed as such by an always-running guardian-agent sampling the datastream of the main processing loop in short intervals => "high priority" value of flag property activates the acton switch in the guardian-agent => the guardian-agent unicasts an ] ] addressed for a specific class pf effector-agents, most of them being in "]" state. A dozen nanoseconds later the interrupt signal unicast finishes it's travel, reaching the target trough one of the many redundant datapaths => the effector-agent responds by a change of state to "]" => executes bootstrap sequence => sending an excitory signal to dopaminergic system of the brain => which action eventually starts the wakeing up process by a release by the pool of neurons of dopaminergic system neurotransmitters ] and ] from a storage pool in form of a large number of small negatively charged vesticula, which are pulled toward the cell membrane of the synapse located of each neuron's axon ending => vesticules release their contents to the out side of the cells membrane into the ] => the following sudden increase of concentration of those neurotransmitters => changes the thermodynamic balance of various possible chemical reactions => increasing the probability of some and decreasing the probabiliy of others => the pattern of chemical cycles changes accordingly => and thus begins an multiple-pathway multi-step proccess of chemical cascades of signals accompanied by calcium iones influx into various neurons => inverting the local polarity of cell membrane of a neuron => creating an ] => thus executing secondary signaling to various, sometimes located far away from "home" part of the brain where all of this started, the delivery of signal is accomplished by propagaton of the action-potential accompanied with induced electromagnetic field (the thick isolation created by myeline support cells wrapping around the axons of neuron cells lesser the probability of electromagnetic interferrence => less transmission errors like flattening of a signal below the theshold level => required number of electric pulses of the action-potential in required unit of time reaches the end of axone in less amount of time quantas => the activation treshold of target neurone is reached, the neuron fires, releasing neurotransmitters at the target => activating this brain subsystem or suppressing it's activity => whole operation gently prepares the ], in cautious, cross-coordinated steps guarded by negative feedback loop agents placed at the several key points of the cascade => guiding the ship of the Dreamer into safe harbour of ] by, for example: raising the body's ], increasing the ] and ], triggering a change in firing pattern of particular deep structures in the brain stem and ''presto!'' - we wake up => a while later => we notice that we are awake => we notice an exciting and pleasant feeling of an ''']''' => and so motivated we attend to act in response (probably by getting up and typing the precious gem of ] to the Misplaced Pages as a stub, to examine it in the morning using concious reasoning...) => the feeling slowly fades => as a ] surge that produced it is gradually dissipating because of ] action of ]s powered with ], the pumps are build of specialized large intramembrane (reaching both sides of the ]) ] floating in a precize ] in a "closed" state, the high ] of ]s triggers an ] => which activates associated middle-man and enzymatic catalyst ]s attached to the inner side of the ] => which start breaking the available cyclicAMP with release of ] transmitted over the complex chain of molecules back to the molecular pump => which "opens", certain exact number of the molecules of ] is required for each neurotransmitter molecule reuptake cycle (the ] is forced against the ] gradient, so it takes a relative long amount of time quantas to return to ] '''IN CONTRAST''' the ] of ]s is "free", with the ], that is why it is so fast and the raise of concentration is so sudden) => the pump "turns around and twists" taking the neurotransmitter molecule '''inside''' => and changing it's state back to "dormant" => as a ] turning off the cAMP degradating molecule complex => ] repeats on until the concentration of neurotranssmitters in ] is no longer high enough to (indirectly) "open" the pump => w neurotransmiter molecules are possitively charged and back inside the synapse => where float building blocks of synaptic vescicles, negatively charged => they ] each other => neurotransmitters are again stored in recreated ], ready for the next time => After a while the whole waking-up operation reaches ] and is ready for next action ("dormant"), in compliance with the Scout motto => all of this is per analogiam very similar to taking a complex ] system from an no power ] state to an ] ]...)<h4>Sources:</h4> 0) The Cell, Third Edition,<br /> 1) myriad of bits and pieces picked up from reading articles and press releases about intertwining fields<br />2) my own ingenuity in inventing '''some''' terms, <br /> 3) ]-reinforced reasoning by ], ] and a one or two LEAPs of ]. Being able to ] I find it hard to refrain from ing...<br /> '''WARNING:'''' ''It's not good enough to use as a base for ], the teacher might strongy disagree with you. I assure I tried to refrain from overly speculative ideas and double checked the spelling. This is for you to get the general ], for precize ] ] you need funds and do your own ]. In other words - you get what you have paid for, most of the new information is not accesible for free... :8( ] 00:51, 6 Feb 2005 (UTC) ''</small></div> that is redistribute the number of quantas of the atention process, assigning relatively bigger quota of attention quantas to an abstract interface { foobar}, '''then''' one is ''''either''' awake '''or''' in the state that lies in between the ] and the ] - the state of '']''. | |||
Consciousness is notoriously difficult to define or locate. Many cultures and religious traditions place the seat of consciousness in a ] separate from the body. Conversely, many scientists and philosophers consider consciousness to be intimately linked to the neural functioning of the ]. | Consciousness is notoriously difficult to define or locate. Many cultures and religious traditions place the seat of consciousness in a ] separate from the body. Conversely, many scientists and philosophers consider consciousness to be intimately linked to the neural functioning of the ]. | ||
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Brain chemistry affects human consciousness. Sleeping drugs (such as ] = Dormicum) can bring the brain from the awake condition (conscious) to the sleep (unconscious). Wake-up drugs such as ] reverse this process. | Brain chemistry affects human consciousness. Sleeping drugs (such as ] = Dormicum) can bring the brain from the awake condition (conscious) to the sleep (unconscious). Wake-up drugs such as ] reverse this process. | ||
Many other drugs (such as ], ], ], ], ], ], ]s - especially ], ]) have a consciousness-changing effect. There are also some plants, which are said to affect, for example, the dream-state of conciousness converting it to ]s, but the ] gives unconclusive results - it's hard to discern, how much of the effect is produced by a smoked herb and how much of it is a from bias created by ] and ]. | |||
Many other drugs (such as ], ], ], ]) have a consciousness-changing effect. | |||
The bilateral removal of the ] (part of the Intra-laminar nucleus of the Thalamus) appears to abolish consciousness, causing coma, PVS, severe mutism and other features that mimic ]. The centromedian nucleus is also one of the principal sites of action of general anaesthetics and anti-psychotic drugs. | The bilateral removal of the ] (part of the Intra-laminar nucleus of the Thalamus) appears to abolish consciousness, causing coma, PVS, severe mutism and other features that mimic ]. The centromedian nucleus is also one of the principal sites of action of general anaesthetics and anti-psychotic drugs. |
Revision as of 00:51, 6 February 2005
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Consciousness is a quality of the mind generally regarded to comprise qualities such as subjectivity, self-awareness (a feeling, one can be effective without being self-aware, see sleepwalking), sentience (an ability or subprocess), sapience (an ability or subprocess), and the ability to perceive the relationship between oneself and one's environment (me-awareness, awareness of MeSelf). In common parlance, consciousness denotes being awake and responsive to one's environment; this contrasts with being asleep or being in a coma. A dead person is also unresponsive to it's environment, though the average Waker in trying to wake in a gentle way, gradually increasing the amplitude and frequency of sonic emissions, might not notice the sad difference for a long time until she proceeds with drastic actions - like shaking the "sleeping" corpse. The touch of a dead cold, stiff corpse has usually a incredibly amusing effect on the Waker, film on 11. See! post traumatic stress disorder, zombie, voodoo, horror stories you can pick up from your mom. Some variations of budddism require long rituals after the death of a person Tibetan Book of the Dead, the dead person is considered concious and awake and able to listen to instructions, until the required rites are done and the local alive population can relax , the instructions are read because of many traps waiting for the soul on it's way to the other side and repeating them helps the dead person to remember not to go into a wrong gate of wrong colour and get into a heaven for orthodox followers of Muhammed instead of merging with cosmic conciousness, like every law abiding buddist should, unless he decides not to leave the Wheel of Samsara (reincarnation).
Waking up process (sidenote)
The cruicial difference between a state of unconcious and state of beeing fully awake lies in the quality of the presence of an active running process of attention. If one is able to attend to an event triggered by some external or internal stimuli delivered as a datum from one's sensorium or in other words direct one's attention toward some entity (an interabstraction-mediating interface-agent) => one is alert, concious. Directing the attention toward something means to change the quanta distribution of available "attention process" resource, lowering the general quota of quantas per capita and placing the gathered surplus into the attention pool of the selected processing-agent(s) => the mind increases it's awareness of a certain datastream. Increase of quota of allocated free quantas of attention let the processing-agent shorten the interval of sampling of the datastream and converting signals into higher abstraction level format => the processing-agent is delivering more quantas of raw sensory information => the information bubbles up following the available datapaths and encountering multiple filters and associative nets build of neurons, during the journey the information is processed several times, raising it's abstraction level considerably until it is ready for interpretation by neocortex, for example, visual cortex - if your are not cautious, you will wake up at 4 in the morning when a ray of rising sun penerates through the skin and reaches retina => some of the photons encounter atoms of certain molecules in light-sensitive cone cells of retina => which causes the energy jump of an electron in hydrogen atom => triggering a chemical reaction => which will in turn create an action-potential electromagnetic signal => which enters the visual nerve => leading the signal with incredible speed straight into the unsuspecting, innocent brain of thee. Unless you are heavily drugged or afflicted by a physical defect somewhere on steps of the cascade generating the signal, you are going to wake up, even if there is no reason to get out of bed before 10. Sorry, unfortunately being awake is a process on a lower abstraction level that the part of your mind which comprehends the silliness of waking up when some wiki addicts go to sleep! That is why you fist close your eyes somebody flashes you straight onto face and then notice, that your eyes are closed. Same thing - the reflex protecting the eyes is on lower level of information processing. The lower the abstraction level, the faster response to the stimuli. If a car stops abruptly before you, you will jump back or freeze because of he attack-freeze-or-run reaction based in the brain stem - long way until the signal reaches the level of higher reasoning and we begin swearing at the driver :8) Nature should accomodate to the fact of late-night wikipedia addicion sessions! I say, let's get together in the spirit of fraternity and as United Minds Federation Against Hegemony of Bodies show Nature where is her place! What will body do when the mind refuses to accept unhuman work conditions? We shall overcome! Goddess is on our side! ;8). Let's consider different example of stimuli: there is a change in the homeostasis => an idea-machine has completed it's information processing task which was running on the unconcious level of the information processing hierarchy of abstractions of the brain => the idea-machine creates an instance of a specific event class described in it's associative memory => proceeds by setting the flag property of resulting event-signaling-object to "high priority" and then places it randomly into the to-be-processed pool at the, which action is powered by a self-destructon and delayed release of occupied resources, executed by a always-on garbage collection-agent (it also has a finite pool of attention quantas allocated, thus we can process only limited amount of information, if one encounters an information overload, garbage collection becomes uneffective => too high level of memory pollution => state of confusion of the mind until we atenuate the carrier (medium) and let the mind to recover from the disaster and reach optimal equilibrum again). After a number of quantas of time, the probability of encountering that marked signal is infinitesmaly close to one => so it will be detected and noticed as such by an always-running guardian-agent sampling the datastream of the main processing loop in short intervals => "high priority" value of flag property activates the acton switch in the guardian-agent => the guardian-agent unicasts an interrupt signal addressed for a specific class pf effector-agents, most of them being in "dormant" state. A dozen nanoseconds later the interrupt signal unicast finishes it's travel, reaching the target trough one of the many redundant datapaths => the effector-agent responds by a change of state to "active" => executes bootstrap sequence => sending an excitory signal to dopaminergic system of the brain => which action eventually starts the wakeing up process by a release by the pool of neurons of dopaminergic system neurotransmitters dopamine and noradrenaine from a storage pool in form of a large number of small negatively charged vesticula, which are pulled toward the cell membrane of the synapse located of each neuron's axon ending => vesticules release their contents to the out side of the cells membrane into the synaptic junction => the following sudden increase of concentration of those neurotransmitters => changes the thermodynamic balance of various possible chemical reactions => increasing the probability of some and decreasing the probabiliy of others => the pattern of chemical cycles changes accordingly => and thus begins an multiple-pathway multi-step proccess of chemical cascades of signals accompanied by calcium iones influx into various neurons => inverting the local polarity of cell membrane of a neuron => creating an action-potential => thus executing secondary signaling to various, sometimes located far away from "home" part of the brain where all of this started, the delivery of signal is accomplished by propagaton of the action-potential accompanied with induced electromagnetic field (the thick isolation created by myeline support cells wrapping around the axons of neuron cells lesser the probability of electromagnetic interferrence => less transmission errors like flattening of a signal below the theshold level => required number of electric pulses of the action-potential in required unit of time reaches the end of axone in less amount of time quantas => the activation treshold of target neurone is reached, the neuron fires, releasing neurotransmitters at the target => activating this brain subsystem or suppressing it's activity => whole operation gently prepares the body, in cautious, cross-coordinated steps guarded by negative feedback loop agents placed at the several key points of the cascade => guiding the ship of the Dreamer into safe harbour of Real World by, for example: raising the body's temperature, increasing the pulse and respiratory action, triggering a change in firing pattern of particular deep structures in the brain stem and presto! - we wake up => a while later => we notice that we are awake => we notice an exciting and pleasant feeling of an insight => and so motivated we attend to act in response (probably by getting up and typing the precious gem of wisdom to the Misplaced Pages as a stub, to examine it in the morning using concious reasoning...) => the feeling slowly fades => as a dopamine surge that produced it is gradually dissipating because of reuptake action of molecular pumps powered with cyclicAMP, the pumps are build of specialized large intramembrane (reaching both sides of the cell membrane) molecules floating in a precize grid in a "closed" state, the high concentration of neurotransmitters triggers an allocentric transformation => which activates associated middle-man and enzymatic catalyst proteins attached to the inner side of the cell membrane => which start breaking the available cyclicAMP with release of chemical energy transmitted over the complex chain of molecules back to the molecular pump => which "opens", certain exact number of the molecules of cAMP is required for each neurotransmitter molecule reuptake cycle (the reuptake is forced against the entropy gradient, so it takes a relative long amount of time quantas to return to the point of balance IN CONTRAST the release of neurotransmitters is "free", with the entropy gradient, that is why it is so fast and the raise of concentration is so sudden) => the pump "turns around and twists" taking the neurotransmitter molecule inside => and changing it's state back to "dormant" => as a side effect turning off the cAMP degradating molecule complex => process repeats on until the concentration of neurotranssmitters in synaptic junction is no longer high enough to (indirectly) "open" the pump => w neurotransmiter molecules are possitively charged and back inside the synapse => where float building blocks of synaptic vescicles, negatively charged => they attract each other => neurotransmitters are again stored in recreated vesticula, ready for the next time => After a while the whole waking-up operation reaches chemical equilibrum and is ready for next action ("dormant"), in compliance with the Scout motto => all of this is per analogiam very similar to taking a complex computer system from an no power off-line state to an on-line-and-ready state...)Sources:
0) The Cell, Third Edition,1) myriad of bits and pieces picked up from reading articles and press releases about intertwining fields
2) my own ingenuity in inventing some terms,
3) caffeine-reinforced reasoning by deduction, induction and a one or two LEAPs of intuition. Being able to grok I find it hard to refrain from ing...
WARNING:' It's not good enough to use as a base for homework, the teacher might strongy disagree with you. I assure I tried to refrain from overly speculative ideas and double checked the spelling. This is for you to get the general idea, for precize intelligence information you need funds and do your own research. In other words - you get what you have paid for, most of the new information is not accesible for free... :8( Agquarx 00:51, 6 Feb 2005 (UTC)
that is redistribute the number of quantas of the atention process, assigning relatively bigger quota of attention quantas to an abstract interface { foobar}, then one is 'either awake or in the state that lies in between the Wonderland and the Real World - the state of lucid dream.
Consciousness is notoriously difficult to define or locate. Many cultures and religious traditions place the seat of consciousness in a soul separate from the body. Conversely, many scientists and philosophers consider consciousness to be intimately linked to the neural functioning of the brain.
An understanding of necessary preconditions for consciousness in the human brain may allow us to address important ethical questions. For instance, to what extent are non-human animals conscious? At what point in fetal development does consciousness begin? Can machines ever achieve conscious states? These issues are of great interest to those concerned with the ethical treatment of other beings, be they animals, fetuses, or in the future, machines.
Consciousness and language
Because humans express their conscious states using language, it is tempting to equate language abilities and consciousness. There are, however, speechless humans (infants, feral children, aphasics), to whom consciousness is attributed despite language lost or not yet acquired. Moreover, the study of brain states of non-linguistic primates, in particular the macaques, has been used extensively by scientists and philosophers in their quest for the neural correlates of the contents of consciousness.
Cognitive neuroscience approaches
Several studies point to common mechanisms in different clinical conditions that lead to loss of consciousness. Persistent vegetative state (PVS) is a condition in which a person loses the higher cerebral powers of the brain, but maintains sleep-wake cycles with full or partial autonomic functions. Studies comparing PVS with healthy, awake subjects consistently demonstrate an impaired connectivity between the deeper (brainstem and thalamic) and the upper (cortical) areas of the brain. In addition, it is agreed that the general brain activity in the cortex is lower in the PVS state. Some non-Angloamerican traditions in electroneurobiology view this loss of consciousness as a loss of the ability to resolve time (similar to playing an old phonographic record at very slow or very rapid speed), along a continuum that starts with inattention, continues on sleep and arrives to coma and death.
Loss of consciousness also occurs in other conditions, such as general (tonic-clonic) epileptic seizures, in general anaesthesia, maybe even in deep (slow wave) sleep. The currently best supported hypotheses about such cases of loss of consciousness (or loss of time resolution) focus on the need for 1) a widespread cortical network, including particularly the frontal, parietal and temporal cortices, and 2) cooperation between the deep layers of the brain, especially the thalamus, and the upper layers; the cortex. Such hypotheses go under the common term "globalist theories" of consciousness, due to the claim for a widespread, global network necessary for consciousness to interact with non-mental reality in the first place.
Brain chemistry affects human consciousness. Sleeping drugs (such as Midazolam = Dormicum) can bring the brain from the awake condition (conscious) to the sleep (unconscious). Wake-up drugs such as Anexate reverse this process. Many other drugs (such as heroin, cocaine, LSD, 2C-I, 2C-B, 2C-T-7, benzodiazepines - especially alprazolamum, MDMA) have a consciousness-changing effect. There are also some plants, which are said to affect, for example, the dream-state of conciousness converting it to lucid dreams, but the unofficial research gives unconclusive results - it's hard to discern, how much of the effect is produced by a smoked herb and how much of it is a from bias created by auto-suggestion and placebo effect.
The bilateral removal of the Centromedian nucleus (part of the Intra-laminar nucleus of the Thalamus) appears to abolish consciousness, causing coma, PVS, severe mutism and other features that mimic brain death. The centromedian nucleus is also one of the principal sites of action of general anaesthetics and anti-psychotic drugs.
Philosophical approaches
Philosophers distinguish between phenomenal consciousness and psychological consciousness. Some suggest that consciousness resists or even defies definition. There are many philosophical stances on consciousness, sometimes known as 'isms', including: behaviorism, cognitivism, dualism, idealism, functionalism, phenomenalism, physicalism, pseudonomenalism, emergentism, and mysticism.
Phenomenal consciousness
There is, in the view of very many philosophers, one mental function that accompanies some, or perhaps all, mental events, namely, consciousness. In a philosophical context, the word "consciousness" means something like awareness, or that a mind is directed at something. (That sounds more like a definition of that philosophical term "intentionality" often referred to with the layman's term "aboutness".) So when we perceive, we are conscious of what we perceive; when we introspect, we are conscious of our thoughts; when we remember, we are conscious of something that happened in the past, or of some piece of information that we learned; and so on.
In this philosophical sense of the word "conscious", we are conscious even when we are dreaming; we are conscious of what's happening in the dream. But, although currently it is doubtful that any sleep state without mentation exists, some sleep researchers believe there is a sleep stage that happens, called "deep sleep", in which apparently we are not conscious of anything in any sense. No mental processes that involve consciousness in an ordinary or in a philosophical sense seem to be going on. So dreamless deep sleep is often pointed out as an instance in which one is alive and one's brain is functioning, but there are no mental events occurring in which there is any element of consciousness. This is a typical situation in which some electroneurobiological researchers see a change in time acuity or the ability to distinguish moments, assumed to arise from relativistic interval-dilation effects at work in brain biophysics.
Modern investigations into and discoveries about consciousness are based on psychological statistical studies and case studies of consciousness states and the deficits caused by lesions, stroke, injury, or surgery that disrupt the normal functioning of human senses and cognition. These discoveries suggest that the mind is a complex structure of various localized functions held together by a unitary awareness.
There has been some debate about the following question: Must one be conscious, in the philosophical sense, whenever a mental event occurs? For example, is it possible to have a pain that one does not feel? Some people think not; they think that in order for something to be a pain, one has to feel it and hence be aware of it. Philosophers call this the "incorrigibility" of certain mental states. Similarly, if anything is a thought, then one has to be aware of that of which one is thinking (indeed, that seems nearly a tautology); if there is no consciousness, then one is not thinking. This raises these questions: do mental events necessarily involve consciousness? What about functioning of the brain of which we are unaware?
Suppose we answer "No." Then, of course, what we'd be saying is that there are some mental events that do not include an element of consciousness. These events are going on even though we aren't aware of them. In other words, part of the mind is unconscious. Cognitive scientists believe that many cognitive processes are unconscious in this manner; we are aware of only some of the events that are occurring in our minds.
Some view consciousness as an emergent phenomenon, somehow arising from a hierarchy of unconscious processes (see below). These are fairly recent views, made popular only after Freud.
The description and location of consciousness
Although it is the conventional wisdom that consciousness cannot be defined, philosophers have been describing it for centuries. Rene Descartes wrote 'Meditations' in the seventeenth century, and this contains extensive descriptions of what it is to be conscious. Descartes described consciousness as things laid out in space and time that are viewed from a point. Each thing appears as a result of some quality such as colour, smell etc. (philosophers call these qualities 'qualia'). Other philosophers such as Nicholas Malebranche, John Locke, David Hume and Immanuel Kant also agreed with much of this description although some avoid mentioning the viewing point. The extension of things in time was considered in more detail by Kant and James. Kant wrote that "only on the presupposition of time can we represent to ourselves a number of things as existing at one and the same time (simultaneously) or at different times (successively)". William James stressed the extension of experience in time and said that time is "the short duration of which we are immediately and incessantly sensible". These philosophers also go on to describe dreams, thoughts, emotions etc.
Philosophers have provided a description of consciousness that is like our own experience. When we look around a room or have a dream, things are laid out in space and time and viewed as if from a point. However, when philosophers and scientists consider the location of the contents of consciousness there are fierce disagreements. Some philosophers and scientists do not hold that every mental event has a direct physical event (weak or no 'Supervenience'). As an example, Descartes proposed that the contents of consciousness are images in the brain and the viewing point is some special, non-physical place without extension (the Res Cogitans). This idea is known as 'Cartesian Dualism'. Another example is found in the work of Thomas Reid who thought the contents of consciousness are the world itself which becomes conscious experience in some way through a chain of cause and effect. The precise physical substrate of conscious experience in the world, such as photons, photochemicals, quantum fields etc. is not specified. This idea of a chain of cause and effect or chain of relations causing conscious experience to supervene on the world is found in post-modernism and some forms of behaviourism. There are few examples of scientists and philosophers who adhere to the idea that mental events are directly physical events in the brain. Those who do propose this usually argue that we only think that the descriptions of consciousness occur (eg: Daniel Dennett) although some proponents of Quantum mind, space-time theories of consciousness and Electromagnetic theories of consciousness suggest a direct correspondence between brain activity and experience.
The concept of supervenience is closely related to the idea of emergentism. It is sometimes held that consciousness will emerge from the complexity of brain processing (see for instance the Multiple Drafts Model of consciousness). The general label 'emergence' allows a new physical phenomenon to be implied by physicalist theorists without specifying the exact nature of the phenomenon. This leaves an explanatory gap.
Quantum mechanical approaches
The physicist Roger Penrose, in his book Shadows of the Mind, argued for a quantum mind approach, suggesting that non-local quantum mechanical effects within sub-neural structures give rise to conscious states. He has argued for the need for a fundamentally new physics in order to explain consciousness, which he conceives as a fungible material: one of which any portion can substitute another. ('Shadows' is effectively a second edition of The Emperor's New Mind. Penrose is keen to stress that it replaces that older work).
This central feature of the quantum approach is of much importance: quantum mechanical theories of consciousness investigate such an entity, namely an experience having the property of being fungible, and their work has not hitherto faced the problems set by experience as it is found, namely as distinctively exclusive and "unbarterable". This for other researchers makes a main controversial point.
Penrose was not the first to suggest a link between consciousness and QM; Michael Lockwood and Henry Stapp got there first, and so did Brian Flanagan. Before them there was Bohr, the father of quantum mechanics (QM), who, as David Bohm tells us, "suggests that thought involves such small amounts of energy that quantum-theoretical limitations play an essential role in determining its character." Also of interest are the ideas of Weyl, Wigner, and Schrodinger. All of them shared in the view of consciousness as a fungible reality; adversaries of this stance call it "antipersonalism" and argue that such a construct has never been factually found.
In sum, no real evidence has been found to support any specific relationship between quantum mechanics and the occurrence of consciousness.
Spiritual approaches
Buddhism
In Buddhism, consciousness-only (Sanskrit vijñapti-mātratā, vijñapti-mātra, citta-mātra; Chinese 唯識, pinyin wei shi) is a theory according to which all existence is nothing but consciousness, and therefore there is nothing that lies outside of the mind. This means that conscious-experience is nothing but false discriminations, imaginations; a provisional antidote; thus, the notion of consciousness-only is an indictment of the problems the activities of consciousness engender.
Integral approach to consciousness
Ken Wilber has attempted to develop an integral approach to consciousness that unifies truths from science, philosophy, and spirituality. Because of this, he is sometimes referred to as the "Einstein of consciousness".
Further, Wilber has been involved in several deep and lengthy conversations with Andrew Cohen regarding the ultimate nature of consciousness. Cohen has been working since 1986 towards what he calls "the transformation of human consciousness on a global scale."
Functions of consciousness
We generally agree that our fellow human beings are conscious and that lower life forms such as bacteria are not. Many of us attribute consciousness to higher-order animals such as dolphins and primates; academic research is investigating which rather than whether animals are conscious. This suggests the hypothesis that consciousness has co-evolved with life, which would require it to have some sort of added value. People have therefore looked for specific functions of consiousness. Bernard Baars (1997) for instance states that “consciousness is a supremely functional adaptation” and suggests a variety of functions in which consciousness plays a role: prioritization of alternatives, problem solving, decision making, brain processes recruiting, action control, error detection, planning, learning, adaptation, context creation, and access to information. Antonio Damasio (1999) regards consciousness as part of an organism’s survival kit, allowing planned rather than instinctual responses. He also points out that awareness of self allows a concern for one’s own survival, which increases the drive to survive. Although how far consciousness is involved in behaviour is an actively debated issue. Many psychologists, such as radical behaviourists, and many philosophers, such as those who support Ryle's approach, would maintain that behaviour can be explained by non-conscious processes akin to artificial intelligence and might consider consciousness to be epiphenomenal or only weakly related to function.
Tests of consciousness
As there is still not a clear definition of consciousness, no empirical tests currently exist to test consciousness as a whole. Some have even argued that empirical tests of consciousness are intrinsically impossible. However, some researchers have devised tests to detect what they feel are certain aspects of consciousness. A test similar to this was used in the fictional novel Blade Runner by Philip K. Dick to see if a person was a robot or an actual human.
Turing Test
Alan Turing proposed what is now known as the Turing test to determine if a computer could simulate human conversation undetectably. This test is commonly cited in discussion of artificial intelligence. The application to consciousness is highly suggestive, but not clear. One is reminded of Edsger Dijkstra's comment "The question of whether a computer can think is no more interesting than the question of whether a submarine can swim".
Mirror test
With the mirror test, devised by Gordon Gallup in the 1970s, one is interested in whether or not animals are able to recognize themselves in a mirror. Such self-recognition is said to be an indicator of consciousness. Humans (older than 18 months), great apes (except for gorillas), and bottlenose dolphins have all been observed to pass this test.
See also
Cognitive Neuroscience
- Attention, Binocular rivalry, Blindsight, Change blindness, Cognitive science, Iconic memory, Short term memory Society of Mind, multistable perception, Neural correlate of consciousness, Neural Darwinism, Unconscious mind, Visual short term memory
Philosophy
- Philosophy of mind, Mind, Dennett's Multiple Drafts theory, New Mysterianism, Stream of consciousness, Supervenience, Qualia.
Physical Theories of Consciousness
- Quantum mind, space-time theories of consciousness, Electromagnetic theories of consciousness, Spin-Mediated Consciousness Theory.
People
- Bernard Baars, Ned Block, David Chalmers, Francis Crick, Christof Koch, Daniel Dennett, Antonio Damasio, Gerald Edelman, Sigmund Freud, Thomas Metzinger, Marvin Minsky, John Searle, Larry Weiskrantz
Misc
- Altered state of consciousness, Artificial consciousness, Simulated consciousness, Neurophenomenology
Further reading
- Baars, B. (1997). In the Theater of Consciousness. New York, NY: Oxford University Press.
- Blackmore, S. (2004). Consciousness: an introduction. Oxford: Oxford University Press.
- Cleermans, A. (Ed.) (2003). The unity of consciousness. Oxford: Oxford Univerisity Press
- de Quincey, C. (2002). Radical Nature: Rediscovering the Soul of Matter. Montpelier, VT: Invisible Cities Press.
- de Quincey, C. (in press, 2005). Radical Knowing: Exploring Consciousness through Relationship. Rochester, VT: Inner Traditions International.
- Damasio, A. (1999). The feeling of what happens. New York: Harcourt Press.
- Dennett, D. (1991). Consciousness explained, Boston: Little & Company.
- Koch, C. (2004). The quest for consciousness. Englewood, CO: Roberts & Company.
- Metzinger, T. (2003). Being no one: the self-model theory of subjectivity. Cambridge, MA: MIT Press.
- Metzinger, T. (Ed.) (2000). The neural correlates of consciousness. Cambridge, MA: MIT Press.
- Penrose, R. (1989). The emperor's new mind. Oxford: Oxford University Press.
External links
Journals & newsletters
- The journal Consciousness and Cognition
- The Journal of Consciousness Studies
- The free electronic journal Psyche
- the free e-zine Science & Consciousness Review
Societies
Philosophy resources
Misc Sites
- Online lecture videos, from an undergraduate course taught by Christof Koch at Caltech on the neurobiological basis of consciousness in 2004.