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Saturday, August 21, 2021

Neuroscience of free will

From Wikipedia, the free encyclopedia
 
On several different levels, from neurotransmitters through neuron firing rates to overall activity, the brain seems to “ramp up” before movements. This image depicts the readiness potential (RP), a ramping-up activity measured using EEG. The onset of the RP begins before the onset of a conscious intention or urge to act. Some have argued that this indicates the brain unconsciously commits to a decision before consciousness awareness. Others have argued that this activity is due to random fluctuations in brain activity, which drive arbitrary, purposeless movements.

Neuroscience of free will, a part of neurophilosophy, is the study of topics related to free will (volition and sense of agency) using neuroscience, and the analysis of how findings from such studies may impact the free will debate.

As it has become possible to study the living human brain, researchers have begun to watch neural decision-making processes at work. Studies have revealed unexpected things about human agency, moral responsibility, and consciousness in general. One of the pioneering studies in this domain was conducted by Benjamin Libet and colleagues in 1983 and has been the foundation of many studies in the years since. Other studies have attempted to predict participant actions before they make them, explore how we know we are responsible for voluntary movements as opposed to being moved by an external force, or how the role of consciousness in decision making may differ depending on the type of decision being made.

Some areas of the human brain implicated in mental disorders that might be related to free will. Area 25 refers to Brodmann's area 25, related to major depression.

The field remains highly controversial. The significance of findings, their meaning, and what conclusions may be drawn from them is a matter of intense debate. The precise role of consciousness in decision making and how that role may differ across types of decisions remains unclear.

Philosophers like Daniel Dennett or Alfred Mele consider the language used by researchers. They explain that "free will" means many different things to different people (e.g. some notions of free will believe we need the dualistic values of both hard determinism and compatibilism, some not). Dennett insists that many important and common conceptions of "free will" are compatible with the emerging evidence from neuroscience.

Overview

...the current work is in broad agreement with a general trend in neuroscience of volition: although we may experience that our conscious decisions and thoughts cause our actions, these experiences are in fact based on readouts of brain activity in a network of brain areas that control voluntary action... It is clearly wrong to think of [feeling of willing something as a prior intention, located at the very earliest moment of decision in an extended action chain. Rather, W seems to mark an intention-in-action, quite closely linked to action execution.

Patrick Haggard discussing an in-depth experiment by Itzhak Fried

The neuroscience of free will encompasses two main fields of study: volition and agency. Volition, the study of voluntary actions, is difficult to define. If we consider human actions as lying along a spectrum of our involvement in initiating the actions, then reflexes would be on one end, and fully voluntary actions would be on the other. How these actions are initiated and consciousness’ role in producing them is a major area of study in volition. Agency is the capacity of an actor to act in a given environment that has been debated since the beginning of philosophy. Within the neuroscience of free will, the sense of agency—the subjective awareness of initiating, executing, and controlling one's volitional actions—is usually what is studied.

One significant finding of modern studies is that a person's brain seems to commit to certain decisions before the person becomes aware of having made them. Researchers have found delays of about half a second or more (discussed in sections below). With contemporary brain scanning technology, scientists in 2008 were able to predict with 60% accuracy whether 12 subjects would press a button with their left or right hand up to 10 seconds before the subject became aware of having made that choice.[6] These and other findings have led some scientists, like Patrick Haggard, to reject some definitions of "free will".

To be clear, it is very unlikely that a single study could disprove all definitions of free will. Definitions of free will can vary wildly, and each must be considered separately in light of existing empirical evidence. There have also been a number of problems regarding studies of free will. Particularly in earlier studies, research relied on self-reported measures of conscious awareness, but introspective estimates of event timing were found to be biased or inaccurate in some cases. There is no agreed-upon measure of brain activity corresponding to conscious generation of intentions, choices, or decisions, making studying processes related to consciousness difficult. The conclusions drawn from measurements that have been made are debatable too, as they don't necessarily tell, for example, what a sudden dip in the readings represents. Such a dip might have nothing to do with unconscious decision because many other mental processes are going on while performing the task. Although early studies mainly used electroencephalography, more recent studies have used fMRI, single-neuron recordings, and other measures. Researcher Itzhak Fried says that available studies do at least suggest that consciousness comes in a later stage of decision making than previously expected – challenging any versions of "free will" where intention occurs at the beginning of the human decision process.

Free will as illusion

An activity like playing the piano may be intentional, but is generally regarded as requiring many practiced actions. Studies suggest that each key press could be initiated unconsciously.

It is quite likely that a large range of cognitive operations are necessary to freely press a button. Research at least suggests that our conscious self does not initiate all behavior. Instead, the conscious self is somehow alerted to a given behavior that the rest of the brain and body are already planning and performing. These findings do not forbid conscious experience from playing some moderating role, although it is also possible that some form of unconscious process is what is causing modification in our behavioral response. Unconscious processes may play a larger role in behavior than previously thought.

It may be possible, then, that our intuitions about the role of our conscious "intentions" have led us astray; it may be the case that we have confused correlation with causation by believing that conscious awareness necessarily causes the body's movement. This possibility is bolstered by findings in neurostimulation, brain damage, but also research into introspection illusions. Such illusions show that humans do not have full access to various internal processes. The discovery that humans possess a determined will would have implications for moral responsibility or lack thereof. Neuroscientist and author Sam Harris believes that we are mistaken in believing the intuitive idea that intention initiates actions. In fact, Harris is even critical of the idea that free will is "intuitive": he says careful introspection can cast doubt on free will. Harris argues: "Thoughts simply arise in the brain. What else could they do? The truth about us is even stranger than we may suppose: The illusion of free will is itself an illusion". Neuroscientist Walter Jackson Freeman III, nevertheless, talks about the power of even unconscious systems and actions to change the world according to our intentions. He writes: "our intentional actions continually flow into the world, changing the world and the relations of our bodies to it. This dynamic system is the self in each of us, it is the agency in charge, not our awareness, which is constantly trying to keep up with what we do." To Freeman, the power of intention and action can be independent of awareness.

An important distinction to make is the difference between proximal and distal intentions. Proximal intentions are immediate in the sense that they are about acting now. For instance, a decision to raise a hand now or press a button now, as in Libet-style experiments. Distal intentions are delayed in the sense that they are about acting at a later point in time. For instance, deciding to go to the store later. Research has mostly focused on proximal intentions; however, it is unclear to what degree findings will generalize from one sort of intention to the other.

Relevance of scientific research

Some thinkers like neuroscientist and philosopher Adina Roskies think that these studies can still only show, unsurprisingly, that physical factors in the brain are involved before decision making. In contrast, Haggard believes that "We feel we choose, but we don't". Researcher John-Dylan Haynes adds: "How can I call a will 'mine' if I don't even know when it occurred and what it has decided to do?". Philosophers Walter Glannon and Alfred Mele think that some scientists are getting the science right, but misrepresenting modern philosophers. This is mainly because "free will" can mean many things: it is unclear what someone means when they say "free will does not exist". Mele and Glannon say that the available research is more evidence against any dualistic notions of free will – but that is an "easy target for neuroscientists to knock down". Mele says that most discussions of free will are now in materialistic terms. In these cases, "free will" means something more like "not coerced" or that "the person could have done otherwise at the last moment". The existence of these types of free will is debatable. Mele agrees, however, that science will continue to reveal critical details about what goes on in the brain during decision making.

[Some senses of free will] are compatible with what we are learning from science... If only that was what scientists were telling people. But scientists, especially in the last few years, have been on a rampage – writing ill-considered public pronouncements about free will which... verge on social irresponsibility.

Daniel Dennett discussing science and free will

This issue may be controversial for good reason: there is evidence to suggest that people normally associate a belief in free will with their ability to affect their lives. Philosopher Daniel Dennett, author of Elbow Room and a supporter of deterministic free will, believes that scientists risk making a serious mistake. He says that there are types of free will that are incompatible with modern science, but he says that those kinds of free will are not worth wanting. Other types of "free will" are pivotal to people's sense of responsibility and purpose (see also "believing in free will"), and many of these types are actually compatible with modern science.

The other studies described below have only just begun to shed light on the role that consciousness plays in actions, and it is too early to draw very strong conclusions about certain kinds of "free will". It is worth noting that such experiments so far have dealt only with free-will decisions made in short time frames (seconds) and may not have direct bearing on free-will decisions made ("thoughtfully") by the subject over the course of many seconds, minutes, hours or longer. Scientists have also only so far studied extremely simple behaviors (e.g. moving a finger). Adina Roskies points out five areas of neuroscientific research: 1) action initiation, 2) intention, 3) decision, 4) inhibition and control, 5) the phenomenology of agency; and for each of these areas Roskies concludes that the science may be developing our understanding of volition or "will", but it yet offers nothing for developing the "free" part of the "free will" discussion.

There is also the question of the influence of such interpretations in people's behaviour. In 2008, psychologists Kathleen Vohs and Jonathan Schooler published a study on how people behave when they are prompted to think that determinism is true. They asked their subjects to read one of two passages: one suggesting that behaviour boils down to environmental or genetic factors not under personal control; the other neutral about what influences behaviour. The participants then did a few math problems on a computer. But just before the test started, they were informed that because of a glitch in the computer it occasionally displayed the answer by accident; if this happened, they were to click it away without looking. Those who had read the deterministic message were more likely to cheat on the test. "Perhaps, denying free will simply provides the ultimate excuse to behave as one likes", Vohs and Schooler suggested. However, although initial studies suggested that believing in free will is associated with more morally praiseworthy behavior, some recent studies have reported contradictory findings.

Notable experiments

Libet experiment

A pioneering experiment in this field was conducted by Benjamin Libet in the 1980s, in which he asked each subject to choose a random moment to flick their wrist while he measured the associated activity in their brain (in particular, the build-up of electrical signal called the Bereitschaftspotential (BP), which was discovered by Kornhuber & Deecke in 1965). Although it was well known that the "readiness potential" (German: Bereitschaftspotential) preceded the physical action, Libet asked how it corresponded to the felt intention to move. To determine when the subjects felt the intention to move, he asked them to watch the second hand of a clock and report its position when they felt that they had felt the conscious will to move.

Libet's experiment: (0) repose, until (1) the Bereitschaftspotential is detected, (2-Libet's W) the volunteer memorizes a dot position upon feeling their intention, and then (3) acts.

Libet found that the unconscious brain activity leading up to the conscious decision by the subject to flick their wrist began approximately half a second before the subject consciously felt that they had decided to move. Libet's findings suggest that decisions made by a subject are first being made on a subconscious level and only afterward being translated into a "conscious decision", and that the subject's belief that it occurred at the behest of their will was only due to their retrospective perspective on the event.

The interpretation of these findings has been criticized by Daniel Dennett, who argues that people will have to shift their attention from their intention to the clock, and that this introduces temporal mismatches between the felt experience of will and the perceived position of the clock hand. Consistent with this argument, subsequent studies have shown that the exact numerical value varies depending on attention. Despite the differences in the exact numerical value, however, the main finding has held. Philosopher Alfred Mele criticizes this design for other reasons. Having attempted the experiment himself, Mele explains that "the awareness of the intention to move" is an ambiguous feeling at best. For this reason he remained skeptical of interpreting the subjects' reported times for comparison with their "Bereitschaftspotential".

Criticisms

Typical recording of the Bereitschaftspotential that was discovered by Kornhuber & Deecke in 1965). Benjamin Libet investigated whether this neural activity corresponded to the "felt intention" (or will) to move of experimental subjects.

In a variation of this task, Haggard and Eimer asked subjects to decide not only when to move their hands, but also to decide which hand to move. In this case, the felt intention correlated much more closely with the "lateralized readiness potential" (LRP), an event-related potential (ERP) component that measures the difference between left and right hemisphere brain activity. Haggard and Eimer argue that the feeling of conscious will must therefore follow the decision of which hand to move, since the LRP reflects the decision to lift a particular hand.

A more direct test of the relationship between the Bereitschaftspotential and the "awareness of the intention to move" was conducted by Banks and Isham (2009). In their study, participants performed a variant of the Libet's paradigm in which a delayed tone followed the button press. Subsequently, research participants reported the time of their intention to act (e.g., Libet's "W"). If W were time-locked to the Bereitschaftspotential, W would remain uninfluenced by any post-action information. However, findings from this study show that W in fact shifts systematically with the time of the tone presentation, implicating that W is, at least in part, retrospectively reconstructed rather than pre-determined by the Bereitschaftspotential.

A study conducted by Jeff Miller and Judy Trevena (2009) suggests that the Bereitschaftspotential (BP) signal in Libet's experiments doesn't represent a decision to move, but that it's merely a sign that the brain is paying attention. In this experiment the classical Libet experiment was modified by playing an audio tone indicating to volunteers to decide whether to tap a key or not. The researchers found that there was the same RP signal in both cases, regardless of whether or not volunteers actually elected to tap, which suggests that the RP signal doesn't indicate that a decision has been made.

In a second experiment, researchers asked volunteers to decide on the spot whether to use left hand or right to tap the key while monitoring their brain signals, and they found no correlation among the signals and the chosen hand. This criticism has itself been criticized by free-will researcher Patrick Haggard, who mentions literature that distinguishes two different circuits in the brain that lead to action: a "stimulus-response" circuit and a "voluntary" circuit. According to Haggard, researchers applying external stimuli may not be testing the proposed voluntary circuit, nor Libet's hypothesis about internally triggered actions.

Libet's interpretation of the ramping up of brain activity prior to the report of conscious "will" continues to draw heavy criticism. Studies have questioned participants' ability to report the timing of their "will". Authors have found that preSMA activity is modulated by attention (attention precedes the movement signal by 100 ms), and the prior activity reported could therefore have been product of paying attention to the movement. They also found that the perceived onset of intention depends on neural activity that takes place after the execution of action. Transcranial magnetic stimulation (TMS) applied over the preSMA after a participant performed an action shifted the perceived onset of the motor intention backward in time, and the perceived time of action execution forward in time.

Others have speculated that the preceding neural activity reported by Libet may be an artefact of averaging the time of "will", wherein neural activity does not always precede reported "will". In a similar replication they also reported no difference in electrophysiological signs before a decision not to move and before a decision to move.

Despite the popular interpretation of his findings, Libet himself did not interpret his experiment as evidence of the inefficacy of conscious free will — he points out that although the tendency to press a button may be building up for 500 milliseconds, the conscious will retains a right to veto any action at the last moment. According to this model, unconscious impulses to perform a volitional act are open to suppression by the conscious efforts of the subject (sometimes referred to as "free won't"). A comparison is made with a golfer, who may swing a club several times before striking the ball. The action simply gets a rubber stamp of approval at the last millisecond. Max Velmans argues however that "free won't" may turn out to need as much neural preparation as "free will" (see below).

Some studies have, however, replicated Libet's findings, whilst addressing some of the original criticisms. A 2011 study conducted by Itzhak Fried found that individual neurons fire 2 seconds before a reported "will" to act (long before EEG activity predicted such a response). This was accomplished with the help of volunteer epilepsy patients, who needed electrodes implanted deep in their brain for evaluation and treatment anyway. Now able to monitor awake and moving patients, the researchers replicated the timing anomalies that were discovered by Libet. Similarly to these tests, Chun Siong Soon, Anna Hanxi He, Stefan Bode and John-Dylan Haynes have conducted a study in 2013 claiming to be able to predict the choice to sum or subtract before the subject reports it.

William R. Klemm pointed out the inconclusiveness of these tests due to design limitations and data interpretations and proposed less ambiguous experiments, while affirming a stand on the existence of free will like Roy F. Baumeister or Catholic neuroscientists such as Tadeusz Pacholczyk. Adrian G. Guggisberg and Annaïs Mottaz have also challenged Itzhak Fried's findings.

A study by Aaron Schurger and colleagues published in PNAS challenged assumptions about the causal nature of the Bereitschaftspotential itself (and the "pre-movement buildup" of neural activity in general when faced with a choice), thus denying the conclusions drawn from studies such as Libet's and Fried's. See The Information Philosopher, New Scientist, and the Atlantic for commentary on this study.

Unconscious actions

Timing intentions compared to actions

A study by Masao Matsuhashi and Mark Hallett, published in 2008, claims to have replicated Libet's findings without relying on subjective report or clock memorization on the part of participants. The authors believe that their method can identify the time (T) at which a subject becomes aware of his own movement. Matsuhashi and Hallet argue that T not only varies, but often occurs after early phases of movement genesis have already begun (as measured by the readiness potential). They conclude that a person's awareness cannot be the cause of movement, and may instead only notice the movement.

The experiment
It is difficult to identify exactly when a person becomes aware of his action. Some findings indicate that awareness comes after neural activities have already begun in the brain.

Matsuhashi and Hallett's study can be summarized thus. The researchers hypothesized that, if our conscious intentions are what causes movement genesis (i.e. the start of an action), then naturally, our conscious intentions should always occur before any movement has begun. Otherwise, if we ever become aware of a movement only after it has already been started, our awareness could not have been the cause of that particular movement. Simply put, conscious intention must precede action if it is its cause.

To test this hypothesis, Matsuhashi and Hallet had volunteers perform brisk finger movements at random intervals, while not counting or planning when to make such (future) movements, but rather immediately making a movement as soon as they thought about it. An externally controlled "stop-signal" sound was played at pseudo-random intervals, and the volunteers had to cancel their intent to move if they heard a signal while being aware of their own immediate intention to move. Whenever there was an action (finger movement), the authors documented (and graphed) any tones that occurred before that action. The graph of tones before actions therefore only shows tones (a) before the subject is even aware of his "movement genesis" (or else they would have stopped or "vetoed" the movement), and (b) after it is too late to veto the action. This second set of graphed tones is of little importance here.

In this work, "movement genesis" is defined as the brain process of making movement, of which physiological observations have been made (via electrodes) indicating that it may occur before conscious awareness of intent to move.

By looking to see when tones started preventing actions, the researchers supposedly know the length of time (in seconds) that exists between when a subject holds a conscious intention to move and performs the action of movement. This moment of awareness is called "T" (the mean time of conscious intention to move). It can be found by looking at the border between tones and no tones. This enables the researchers to estimate the timing of the conscious intention to move without relying on the subject's knowledge or demanding them to focus on a clock. The last step of the experiment is to compare time T for each subject with their event-related potential (ERP) measures (e.g. seen in this page's lead image), which reveal when their finger movement genesis first begins.

The researchers found that the time of the conscious intention to move T normally occurred too late to be the cause of movement genesis. See the example of a subject's graph below on the right. Although it is not shown on the graph, the subject's readiness potentials (ERP) tells us that his actions start at −2.8 seconds, and yet this is substantially earlier than his conscious intention to move, time "T" (−1.8 seconds). Matsuhashi and Hallet concluded that the feeling of the conscious intention to move does not cause movement genesis; both the feeling of intention and the movement itself are the result of unconscious processing.

Analysis and interpretation
A simple "signalling noise" is used, but it is to warn participants that they must prevent any actions they are aware of.

This study is similar to Libet's in some ways: volunteers were again asked to perform finger extensions in short, self-paced intervals. In this version of the experiment, researchers introduced randomly timed "stop tones" during the self-paced movements. If participants were not conscious of any intention to move, they simply ignored the tone. On the other hand, if they were aware of their intention to move at the time of the tone, they had to try to veto the action, then relax for a bit before continuing self-paced movements. This experimental design allowed Matsuhashi and Hallet to see when, once the subject moved his finger, any tones occurred. The goal was to identify their own equivalent of Libet's W, their own estimation of the timing of the conscious intention to move, which they would call "T" (time).

Testing the hypothesis that "conscious intention occurs after movement genesis has already begun" required the researchers to analyse the distribution of responses to tones before actions. The idea is that, after time T, tones will lead to vetoing and thus a reduced representation in the data. There would also be a point of no return P where a tone was too close to the movement onset for the movement to be vetoed. In other words, the researchers were expecting to see the following on the graph: many unsuppressed responses to tones while the subjects are not yet aware of their movement genesis, followed by a drop in the number of unsuppressed responses to tones during a certain period of time during which the subjects are conscious of their intentions and are stopping any movements, and finally a brief increase again in unsuppressed responses to tones when the subjects do not have the time to process the tone and prevent an action – they have passed the action's "point of no return". That is exactly what the researchers found (see the graph on the right, below).

Graphing tones as they appeared (or didn't) in the time before any action. In this case, researchers believe that the subject becomes aware of his actions at about 1.8 seconds (this is time "T"). A typical subject's ERP recordings suggest movement preparation as early as −2.8 seconds.

The graph shows the times at which unsuppressed responses to tones occurred when the volunteer moved. He showed many unsuppressed responses to tones (called "tone events" on the graph) on average up until 1.8 seconds before movement onset, but a significant decrease in tone events immediately after that time. Presumably this is because the subject usually became aware of his intention to move at about −1.8 seconds, which is then labelled point T. Since most actions are vetoed if a tone occurs after point T, there are very few tone events represented during that range. Finally, there is a sudden increase in the number of tone events at 0.1 seconds, meaning that this subject has passed point P. Matsuhashi and Hallet were thus able to establish an average time T (−1.8 seconds) without subjective report. This, they compared to ERP measurements of movement, which had detected movement beginning at about −2.8 seconds on average for this participant. Since T, like Libet's original W, was often found after movement genesis had already begun, the authors concluded that the generation of awareness occurred afterwards or in parallel to action, but most importantly, that it was probably not the cause of the movement.

Criticisms

Haggard describes other studies at the neuronal levels as providing "a reassuring confirmation of previous studies that recorded neural populations" such as the one just described. Note that these results were gathered using finger movements and may not necessarily generalize to other actions such as thinking, or even other motor actions in different situations. Indeed, the human act of planning has implications for free will, and so this ability must also be explained by any theories of unconscious decision making. Philosopher Alfred Mele also doubts the conclusions of these studies. He explains that simply because a movement may have been initiated before our "conscious self" has become aware of it does not mean that our consciousness does not still get to approve, modify, and perhaps cancel (called vetoing) the action.

Unconsciously cancelling actions

The possibility that human "free won't" is also the prerogative of the subconscious is being explored.

Retrospective judgement of free choice

As green light switches to yellow, research seems to suggest that humans cannot tell the difference between "deciding" to keep driving and having no time to decide at all.

Recent research by Simone Kühn and Marcel Brass suggests that our consciousness may not be what causes some actions to be vetoed at the last moment. First of all, their experiment relies on the simple idea that we ought to know when we consciously cancel an action (i.e. we should have access to that information). Secondly, they suggest that access to this information means humans should find it easy to tell, just after completing an action, whether it was impulsive (there being no time to decide) and when there was time to deliberate (the participant decided to allow/not to veto the action). The study found evidence that subjects could not tell this important difference. This again leaves some conceptions of free will vulnerable to the introspection illusion. The researchers interpret their results to mean that the decision to "veto" an action is determined subconsciously, just as the initiation of the action may have been subconscious in the first place.

The experiment

The experiment involved asking volunteers to respond to a go-signal by pressing an electronic "go" button as quickly as possible. In this experiment the go-signal was represented as a visual stimulus shown on a monitor (e.g. a green light as shown on the picture). The participants' reaction times (RT) were gathered at this stage, in what was described as the "primary response trials".

The primary response trials were then modified, in which 25% of the go-signals were subsequently followed by an additional signal – either a "stop" or "decide" signal. The additional signals occurred after a "signal delay" (SD), a random amount of time up to 2 seconds after the initial go-signal. They also occurred equally, each representing 12.5% of experimental cases. These additional signals were represented by the initial stimulus changing colour (e.g. to either a red or orange light). The other 75% of go-signals were not followed by an additional signal, and therefore considered the "default" mode of the experiment. The participants' task of responding as quickly as possible to the initial signal (i.e. pressing the "go" button) remained.

Upon seeing the initial go-signal, the participant would immediately intend to press the "go" button. The participant was instructed to cancel their immediate intention to press the "go" button if they saw a stop signal. The participant was instructed to select randomly (at their leisure) between either pressing the "go" button or not pressing it, if they saw a decide signal. Those trials in which the decide signal was shown after the initial go-signal ("decide trials"), for example, required that the participants prevent themselves from acting impulsively on the initial go-signal and then decide what to do. Due to the varying delays, this was sometimes impossible (e.g. some decide signals simply appeared too late in the process of them both intending to and pressing the go button for them to be obeyed).

Those trials in which the subject reacted to the go-signal impulsively without seeing a subsequent signal show a quick RT of about 600 ms. Those trials in which the decide signal was shown too late, and the participant had already enacted their impulse to press the go-button (i.e. had not decided to do so), also show a quick RT of about 600 ms. Those trials in which a stop signal was shown and the participant successfully responded to it, do not show a response time. Those trials in which a decide signal was shown, and the participant decided not to press the go-button, also do not show a response time. Those trials in which a decide signal was shown, and the participant had not already enacted their impulse to press the go-button, but (in which it was theorised that they) had had the opportunity to decide what to do, show a comparatively slow RT, in this case closer to 1400 ms.

The participant was asked at the end of those "decide trials" in which they had actually pressed the go-button whether they had acted impulsively (without enough time to register the decide signal before enacting their intent to press the go-button in response to the initial go-signal stimulus) or based upon a conscious decision made after seeing the decide signal. Based upon the response time data, however, it appears that there was discrepancy between when the user thought that they had had the opportunity to decide (and had therefore not acted on their impulses) – in this case deciding to press the go-button, and when they thought that they had acted impulsively (based upon the initial go-signal) – where the decide signal came too late to be obeyed.

The rationale

Kuhn and Brass wanted to test participant self-knowledge. The first step was that after every decide trial, participants were next asked whether they had actually had time to decide. Specifically, the volunteers were asked to label each decide trial as either failed-to-decide (the action was the result of acting impulsively on the initial go-signal) or successful decide (the result of a deliberated decision). See the diagram on the right for this decide trial split: failed-to-decide and successful decide; the next split in this diagram (participant correct or incorrect) will be explained at the end of this experiment. Note also that the researchers sorted the participants’ successful decide trials into "decide go" and "decide no-go", but were not concerned with the no-go trials, since they did not yield any RT data (and are not featured anywhere in the diagram on the right). Note that successful stop trials did not yield RT data either.

The different types of trials and their different possible outcomes

Kuhn and Brass now knew what to expect: primary response trials, any failed stop trials, and the "failed-to-decide" trials were all instances where the participant obviously acted impulsively – they would show the same quick RT. In contrast, the "successful decide" trials (where the decision was a "go" and the subject moved) should show a slower RT. Presumably, if deciding whether to veto is a conscious process, volunteers should have no trouble distinguishing impulsivity from instances of true deliberate continuation of a movement. Again, this is important, since decide trials require that participants rely on self-knowledge. Note that stop trials cannot test self-knowledge because if the subject does act, it is obvious to them that they reacted impulsively.

Results and implications
The general distribution of reaction times for the different trials. Notice the timing of the two peaks for trials labelled "successful decide".

Unsurprisingly, the recorded RTs for the primary response trials, failed stop trials, and "failed-to-decide" trials all showed similar RTs: 600 ms seems to indicate an impulsive action made without time to truly deliberate. What the two researchers found next was not as easy to explain: while some "successful decide" trials did show the tell-tale slow RT of deliberation (averaging around 1400 ms), participants had also labelled many impulsive actions as "successful decide". This result is startling because participants should have had no trouble identifying which actions were the results of a conscious "I will not veto", and which actions were un-deliberated, impulsive reactions to the initial go-signal. As the authors explain:

[The results of the experiment] clearly argue against Libet's assumption that a veto process can be consciously initiated. He used the veto in order to reintroduce the possibility to control the unconsciously initiated actions. But since the subjects are not very accurate in observing when they have [acted impulsively instead of deliberately], the act of vetoing cannot be consciously initiated.

In decide trials the participants, it seems, were not able to reliably identify whether they had really had time to decide – at least, not based on internal signals. The authors explain that this result is difficult to reconcile with the idea of a conscious veto, but is simple to understand if the veto is considered an unconscious process. Thus it seems that the intention to move might not only arise from the subconscious, but it may only be inhibited if the subconscious says so. This conclusion could suggest that the phenomenon of "consciousness" is more of narration than direct arbitration (i.e. unconscious processing causes all thoughts, and these thoughts are again processed subconsciously).

Criticisms

After the above experiments, the authors concluded that subjects sometimes could not distinguish between "producing an action without stopping and stopping an action before voluntarily resuming", or in other words, they could not distinguish between actions that are immediate and impulsive as opposed to delayed by deliberation. To be clear, one assumption of the authors is that all the early (600 ms) actions are unconscious, and all the later actions are conscious. These conclusions and assumptions have yet to be debated within the scientific literature or even replicated (it is a very early study).

The results of the trial in which the so-called "successful decide" data (with its respective longer time measured) was observed may have possible implications for our understanding of the role of consciousness as the modulator of a given action or response, and these possible implications cannot merely be omitted or ignored without valid reasons, specially when the authors of the experiment suggest that the late decide trials were actually deliberated.

It is worth noting that Libet consistently referred to a veto of an action that was initiated endogenously. That is, a veto that occurs in the absence of external cues, instead relying on only internal cues (if any at all). This veto may be a different type of veto than the one explored by Kühn and Brass using their decide signal.

Daniel Dennett also argues that no clear conclusion about volition can be derived from Benjamin Libet's experiments supposedly demonstrating the non-existence of conscious volition. According to Dennett, ambiguities in the timings of the different events are involved. Libet tells when the readiness potential occurs objectively, using electrodes, but relies on the subject reporting the position of the hand of a clock to determine when the conscious decision was made. As Dennett points out, this is only a report of where it seems to the subject that various things come together, not of the objective time at which they actually occur:

Suppose Libet knows that your readiness potential peaked at millisecond 6,810 of the experimental trial, and the clock dot was straight down (which is what you reported you saw) at millisecond 7,005. How many milliseconds should he have to add to this number to get the time you were conscious of it? The light gets from your clock face to your eyeball almost instantaneously, but the path of the signals from retina through lateral geniculate nucleus to striate cortex takes 5 to 10 milliseconds — a paltry fraction of the 300 milliseconds offset, but how much longer does it take them to get to you. (Or are you located in the striate cortex?) The visual signals have to be processed before they arrive at wherever they need to arrive for you to make a conscious decision of simultaneity. Libet's method presupposes, in short, that we can locate the intersection of two trajectories:

  • the rising-to-consciousness of signals representing the decision to flick
  • the rising to consciousness of signals representing successive clock-face orientations

so that these events occur side-by-side as it were in place where their simultaneity can be noted.

The point of no return

In early 2016, PNAS published an article by researchers in Berlin, Germany, The point of no return in vetoing self-initiated movements, in which the authors set out to investigate whether human subjects had the ability to veto an action (in this study, a movement of the foot) after the detection of its Bereitschaftspotential (BP). The Bereitschaftspotential, which was discovered by Kornhuber & Deecke in 1965, is an instance of unconscious electrical activity within the motor cortex, quantified by the use of EEG, that occurs moments before a motion is performed by a person: it is considered a signal that the brain is "getting ready" to perform the motion. The study found evidence that these actions can be vetoed even after the BP is detected (i. e. after it can be seen that the brain has started preparing for the action). The researchers maintain that this is evidence for the existence of at least some degree of free will in humans: previously, it had been argued that, given the unconscious nature of the BP and its usefulness in predicting a person's movement, these are movements that are initiated by the brain without the involvement of the conscious will of the person. The study showed that subjects were able to "override" these signals and stop short of performing the movement that was being anticipated by the BP. Furthermore, researchers identified what was termed a "point of no return": once the BP is detected for a movement, the person could refrain from performing the movement only if they attempted to cancel it at least 200 milliseconds before the onset of the movement. After this point, the person was unable to avoid performing the movement. Previously, Kornhuber and Deecke underlined that absence of conscious will during the early Bereitschaftspotential (termed BP1) is not a proof of the non-existence of free will, as also unconscious agendas may be free and non-deterministic. According to their suggestion, man has relative freedom, i.e. freedom in degrees, that can be increased or decreased through deliberate choices that involve both conscious and unconscious (panencephalic) processes.

Neuronal prediction of free will

Despite criticisms, experimenters are still trying to gather data that may support the case that conscious "will" can be predicted from brain activity. fMRI machine learning of brain activity (multivariate pattern analysis) has been used to predict the user choice of a button (left/right) up to 7 seconds before their reported will of having done so. Brain regions successfully trained for prediction included the frontopolar cortex (anterior medial prefrontal cortex) and precuneus/posterior cingulate cortex (medial parietal cortex). In order to ensure report timing of conscious "will" to act, they showed the participant a series of frames with single letters (500 ms apart), and upon pressing the chosen button (left or right) they were required to indicate which letter they had seen at the moment of decision. This study reported a statistically significant 60% accuracy rate, which may be limited by experimental setup; machine-learning data limitations (time spent in fMRI) and instrument precision.

Another version of the fMRI multivariate pattern analysis experiment was conducted using an abstract decision problem, in an attempt to rule out the possibility of the prediction capabilities being product of capturing a built-up motor urge. Each frame contained a central letter like before, but also a central number, and 4 surrounding possible "answers numbers". The participant first chose in their mind whether they wished to perform an addition or subtraction operation, and noted the central letter on the screen at the time of this decision. The participant then performed the mathematical operation based on the central numbers shown in the next two frames. In the following frame the participant then chose the "answer number" corresponding to the result of the operation. They were further presented with a frame that allowed them to indicate the central letter appearing on the screen at the time of their original decision. This version of the experiment discovered a brain prediction capacity of up to 5 seconds before the conscious will to act.

Multivariate pattern analysis using EEG has suggested that an evidence-based perceptual decision model may be applicable to free-will decisions. It was found that decisions could be predicted by neural activity immediately after stimulus perception. Furthermore, when the participant was unable to determine the nature of the stimulus, the recent decision history predicted the neural activity (decision). The starting point of evidence accumulation was in effect shifted towards a previous choice (suggesting a priming bias). Another study has found that subliminally priming a participant for a particular decision outcome (showing a cue for 13 ms) could be used to influence free decision outcomes. Likewise, it has been found that decision history alone can be used to predict future decisions. The prediction capacities of the Soon et al. (2008) experiment were successfully replicated using a linear SVM model based on participant decision history alone (without any brain activity data). Despite this, a recent study has sought to confirm the applicability of a perceptual decision model to free will decisions. When shown a masked and therefore invisible stimulus, participants were asked to either guess between a category or make a free decision for a particular category. Multivariate pattern analysis using fMRI could be trained on "free-decision" data to successfully predict "guess decisions", and trained on "guess data" in order to predict "free decisions" (in the precuneus and cuneus region).

Contemporary voluntary decision prediction tasks have been criticised based on the possibility the neuronal signatures for pre-conscious decisions could actually correspond to lower-conscious processing rather than unconscious processing. People may be aware of their decisions before making their report, yet need to wait several seconds to be certain. However, such a model does not explain what is left unconscious if everything can be conscious at some level (and the purpose of defining separate systems). Yet limitations remain in free-will prediction research to date. In particular, the prediction of considered judgements from brain activity involving thought processes beginning minutes rather than seconds before a conscious will to act, including the rejection of a conflicting desire. Such are generally seen to be the product of sequences of evidence accumulating judgements.

Other related phenomena

Retrospective construction

It has been suggested that sense authorship is an illusion. Unconscious causes of thought and action might facilitate thought and action, while the agent experiences the thoughts and actions as being dependent on conscious will. We may over-assign agency because of the evolutionary advantage that once came with always suspecting there might be an agent doing something (e.g. predator). The idea behind retrospective construction is that, while part of the "yes, I did it" feeling of agency seems to occur during action, there also seems to be processing performed after the fact – after the action is performed – to establish the full feeling of agency.

Unconscious agency processing can even alter, in the moment, how we perceive the timing of sensations or actions. Kühn and Brass apply retrospective construction to explain the two peaks in "successful decide" RTs. They suggest that the late decide trials were actually deliberated, but that the impulsive early decide trials that should have been labelled "failed to decide" were mistaken during unconscious agency processing. They say that people "persist in believing that they have access to their own cognitive processes" when in fact we do a great deal of automatic unconscious processing before conscious perception occurs.

Criticism to Wegner's claims regarding the significance of introspection illusion for the notion of free will has been published.

Manipulating choice

Transcranial magnetic stimulation uses magnetism to safely stimulate or inhibit parts of the brain.

Some research suggests that TMS can be used to manipulate the perception of authorship of a specific choice. Experiments showed that neurostimulation could affect which hands people move, even though the experience of free will was intact. An early TMS study revealed that activation of one side of the neocortex could be used to bias the selection of one's opposite side hand in a forced-choice decision task. Ammon and Gandevia found that it was possible to influence which hand people move by stimulating frontal regions that are involved in movement planning using transcranial magnetic stimulation in the left or right hemisphere of the brain.

Right-handed people would normally choose to move their right hand 60% of the time, but when the right hemisphere was stimulated, they would instead choose their left hand 80% of the time (recall that the right hemisphere of the brain is responsible for the left side of the body, and the left hemisphere for the right). Despite the external influence on their decision-making, the subjects continued to report believing that their choice of hand had been made freely. In a follow-up experiment, Alvaro Pascual-Leone and colleagues found similar results, but also noted that the transcranial magnetic stimulation must occur within 200 milliseconds, consistent with the time-course derived from the Libet experiments.

In late 2015, a team of researchers from the UK and the US published an article demonstrating similar findings. The researchers concluded that "motor responses and the choice of hand can be modulated using tDCS". However, a different attempt by Sohn et al. failed to replicate such results; later, Jeffrey Gray wrote in his book Consciousness: Creeping up on the Hard Problem that tests looking for the influence of electromagnetic fields on brain function have been universally negative in their result.

Manipulating the perceived intention to move

Various studies indicate that the perceived intention to move (have moved) can be manipulated. Studies have focused on the pre-supplementary motor area (pre-SMA) of the brain, in which readiness potential indicating the beginning of a movement genesis has been recorded by EEG. In one study, directly stimulating the pre-SMA caused volunteers to report a feeling of intention, and sufficient stimulation of that same area caused physical movement. In a similar study, it was found that people with no visual awareness of their body can have their limbs be made to move without having any awareness of this movement, by stimulating premotor brain regions. When their parietal cortices were stimulated, they reported an urge (intention) to move a specific limb (that they wanted to do so). Furthermore, stronger stimulation of the parietal cortex resulted in the illusion of having moved without having done so.

This suggests that awareness of an intention to move may literally be the "sensation" of the body's early movement, but certainly not the cause. Other studies have at least suggested that "The greater activation of the SMA, SACC, and parietal areas during and after execution of internally generated actions suggests that an important feature of internal decisions is specific neural processing taking place during and after the corresponding action. Therefore, awareness of intention timing seems to be fully established only after execution of the corresponding action, in agreement with the time course of neural activity observed here."

Another experiment involved an electronic ouija board where the device's movements were manipulated by the experimenter, while the participant was led to believe that they were entirely self-conducted. The experimenter stopped the device on occasions and asked the participant how much they themselves felt like they wanted to stop. The participant also listened to words in headphones, and it was found that if experimenter stopped next to an object that came through the headphones, they were more likely to say that they wanted to stop there. If the participant perceived having the thought at the time of the action, then it was assigned as intentional. It was concluded that a strong illusion of perception of causality requires: priority (we assume the thought must precede the action), consistency (the thought is about the action), and exclusivity (no other apparent causes or alternative hypotheses).

Lau et al. set up an experiment where subjects would look at an analog-style clock, and a red dot would move around the screen. Subjects were told to click the mouse button whenever they felt the intention to do so. One group was given a transcranial magnetic stimulation (TMS) pulse, and the other was given a sham TMS. Subjects in the intention condition were told to move the cursor to where it was when they felt the inclination to press the button. In the movement condition, subjects moved their cursor to where it was when they physically pressed the button. Results showed that the TMS was able to shift the perceived intention forward by 16 ms, and shifted back the 14 ms for the movement condition. Perceived intention could be manipulated up to 200 ms after the execution of the spontaneous action, indicating that the perception of intention occurred after the executive motor movements. Often it is thought that if free will were to exist, it would require intention to be the causal source of behavior. These results show that intention may not be the causal source of all behavior.

Related models

The idea that intention co-occurs with (rather than causes) movement is reminiscent of "forward models of motor control" (FMMC), which have been used to try to explain inner speech. FMMCs describe parallel circuits: movement is processed in parallel with other predictions of movement; if the movement matches the prediction, the feeling of agency occurs. FMMCs have been applied in other related experiments. Metcalfe and her colleagues used an FMMC to explain how volunteers determine whether they are in control of a computer game task. On the other hand, they acknowledge other factors too. The authors attribute feelings of agency to desirability of the results and top-down processing (reasoning and inferences about the situation).

In this case, it is by the application of the forward model that one might imagine how other consciousness processes could be the result of efferent, predictive processing. If the conscious self is the efferent copy of actions and vetoes being performed, then the consciousness is a sort of narrator of what is already occurring in the body, and an incomplete narrator at that. Haggard, summarizing data taken from recent neuron recordings, says "these data give the impression that conscious intention is just a subjective corollary of an action being about to occur". Parallel processing helps explain how we might experience a sort of contra-causal free will even if it were determined.

How the brain constructs consciousness is still a mystery, and cracking it open would have a significant bearing on the question of free will. Numerous different models have been proposed, for example, the multiple drafts model, which argues that there is no central Cartesian theater where conscious experience would be represented, but rather that consciousness is located all across the brain. This model would explain the delay between the decision and conscious realization, as experiencing everything as a continuous "filmstrip" comes behind the actual conscious decision. In contrast, there exist models of Cartesian materialism that have gained recognition by neuroscience, implying that there might be special brain areas that store the contents of consciousness; this does not, however, rule out the possibility of a conscious will. Other models such as epiphenomenalism argue that conscious will is an illusion, and that consciousness is a by-product of physical states of the world. Work in this sector is still highly speculative, and researchers favor no single model of consciousness.

Related brain disorders

Various brain disorders implicate the role of unconscious brain processes in decision-making tasks. Auditory hallucinations produced by schizophrenia seem to suggest a divergence of will and behaviour. The left brain of people whose hemispheres have been disconnected has been observed to invent explanations for body movement initiated by the opposing (right) hemisphere, perhaps based on the assumption that their actions are consciously willed. Likewise, people with "alien hand syndrome" are known to conduct complex motor movements against their will.

Neural models of voluntary action

A neural model for voluntary action proposed by Haggard comprises two major circuits. The first involving early preparatory signals (basal ganglia substantia nigra and striatum), prior intention and deliberation (medial prefrontal cortex), motor preparation/readiness potential (preSMA and SMA), and motor execution (primary motor cortex, spinal cord and muscles). The second involving the parietal-pre-motor circuit for object-guided actions, for example grasping (premotor cortex, primary motor cortex, primary somatosensory cortex, parietal cortex, and back to the premotor cortex). He proposed that voluntary action involves external environment input ("when decision"), motivations/reasons for actions (early "whether decision"), task and action selection ("what decision"), a final predictive check (late "whether decision") and action execution.

Another neural model for voluntary action also involves what, when, and whether (WWW) based decisions. The "what" component of decisions is considered a function of the anterior cingulate cortex, which is involved in conflict monitoring. The timing ("when") of the decisions are considered a function of the preSMA and SMA, which is involved in motor preparation. Finally, the "whether" component is considered a function of the dorsal medial prefrontal cortex.

Prospection

Martin Seligman and others criticize the classical approach in science that views animals and humans as "driven by the past" and suggest instead that people and animals draw on experience to evaluate prospects they face and act accordingly. The claim is made that this purposive action includes evaluation of possibilities that have never occurred before and is experimentally verifiable.

Seligman and others argue that free will and the role of subjectivity in consciousness can be better understood by taking such a "prospective" stance on cognition and that "accumulating evidence in a wide range of research suggests [this] shift in framework".

 

Criticism of Marxism

From Wikipedia, the free encyclopedia
 

General criticism

Some democratic socialists and social democrats reject the idea that societies can achieve socialism only through class conflict and a proletarian revolution. Many anarchists reject the need for a transitory state phase. Some thinkers have rejected the fundamentals of Marxist theory such as historical materialism and the labour theory of value and have gone on to criticise capitalism and advocate socialism using other arguments.

Some contemporary supporters of Marxism see many aspects of Marxist thought as viable, but they contend that the corpus is incomplete or somewhat outdated in regard to certain aspects of economic, political or social theory. They may therefore combine some Marxist concepts with the ideas of other theorists such as Max Weber—the Frankfurt School provides one example of this approach.

Conservative historian Paul Johnson wrote: "The truth is, even the most superficial inquiry into Marx's use of evidence forces one to treat with skepticism everything he wrote which relies on factual data". For example, Johnson stated: "The whole of the key Chapter Eight of Capital is a deliberate and systematic falsification to prove a thesis which an objective examination of the facts showed was untenable".

Historical materialism

Historical materialism remains one of the intellectual bases of Marxism. It proposes that technological advances in modes of production inevitably lead to changes in the social relations of production. This economic "base" of society supports, is reflected by and influences the ideological "superstructure" which encompasses culture, religion, politics, and all other aspects of humanity's social consciousness. It thus looks for the causes of developments and changes in human history in economic, technological and, more broadly, material factors as well as the clashes of material interests among tribes, social classes, and nations. Law, politics, the arts, literature, morality and religion are understood by Marx to make up the superstructure as reflections of the economic base of society. Many critics have argued that this is an oversimplification of the nature of society and claim that the influence of ideas, culture and other aspects of what Marx called the superstructure are just as important as the economic base to the course of society, if not more so. However, Marxism does not claim that the economic base of society is the only determining element in society as demonstrated by the following letter written by Friedrich Engels, Marx's long-time contributor:

According to the materialist conception of history, the ultimately determining element in history is the production and reproduction of real life. More than this neither Marx nor I ever asserted. Hence if somebody twists this into saying that the economic element is the only determining one he transforms that proposition into a meaningless, abstract, senseless phrase.

According to critics, this also creates another problem for Marxism. If the superstructure also influences the base then there is no need for Marx's constant assertions that the history of society is one of economic class conflict. This then becomes a classic chicken or the egg argument as to whether the base or the superstructure comes first. Peter Singer proposes that the way to solve this problem is to understand that Marx saw the economic base as ultimately real. Marx believed that humanity's defining characteristic was its means of production and thus the only way for man to free himself from oppression was for him to take control of the means of production. According to Marx, this is the goal of history and the elements of the superstructure act as tools of history.

Marx held that the relationship between material base and ideological superstructure was a determination relation and not a causal relation. However, some critics of Marx have insisted that Marx claimed the superstructure was an effect caused by the base. For instance, Anarcho-capitalist Murray Rothbard criticized historical materialism by arguing that Marx claimed the "base" of society (its technology and social relations) determined its "consciousness" in the superstructure.

Historical determinism

Marx's theory of history has been considered a variant of historical determinism linked to his reliance on dialectical materialism as an endogenous mechanism for social change. Marx wrote:

At a certain stage of development, the material productive forces of society come into conflict with the existing relations of production or – this merely expresses the same thing in legal terms – with the property relations within the framework of which they have operated hitherto. From forms of development of the productive forces these relations turn into their fetters. Then begins an era of social revolution. The changes in the economic foundation lead sooner or later to the transformation of the whole immense superstructure.

The concept of the dialectic emerged from the dialogues of the ancient Greek philosophers, but it was brought out by Georg Wilhelm Friedrich Hegel in the early 19th century as a conceptual framework for the often opposing forces of historical evolution. Historical determinism has also been associated with scholars like Arnold Toynbee and Oswald Spengler, but in recent times this conceptual approach has fallen into disuse.

Terry Eagleton writes that Marx's writings "should not be taken to mean that everything that has ever happened is a matter of class struggle. It means, rather, that class struggle is most fundamental to human history".

Academic Peter Stillman believes Marx's status as a determinist is a "myth". Friedrich Engels himself warned about conceiving of Marx's ideas as deterministic, saying: "According to the materialist conception of history, the ultimately determining element in history is the production and reproduction of real life. Other than this neither Marx nor I have ever asserted. Hence if somebody twists this into saying that the economic element is the only determining one, he transforms that proposition into a meaningless, abstract, senseless phrase." On another occasion, Engels remarked that "younger people sometimes lay more stress on the economic side than is due to it". While historical materialism has been referred to as a materialist theory of history, Marx does not claim to have produced a master-key to history and that the materialist conception of history is not "an historico-philosophic theory of the marche generale, imposed by fate upon every people, whatever the historic circumstances in which it finds itself". In a letter to editor of the Russian newspaper Otetchestvennye Zapiskym (1877), he explains that his ideas are based upon a concrete study of the actual conditions in Europe.

In an effort to reassert this approach to an understanding of the forces of history, Prabhat Ranjan Sarkar criticised what he considers narrow conceptual basis of Marx's ideas on historical evolution. In the 1978 book The Downfall of Capitalism and Communism, Ravi Batra pointed out crucial differences in the historical determinist approaches of Sarkar and Marx:

Sarkar's main concern with the human element is what imparts universality to his thesis. Thus while social evolution according to Marx is governed chiefly by economic conditions, to Sarkar this dynamic is propelled by forces varying with time and space: sometimes physical prowess and high-spiritedness, sometimes intellect applied to dogmas and sometimes intellect applied to the accumulation of capital (p. 38). [...] The main line of defence of the Sarkarian hypothesis is that unlike the dogmas now in disrepute, it does not emphasise one particular point to the exclusion of all others: it is based on the sum total of human experience – the totality of human nature. Whenever a single factor, however important and fundamental, is called upon to illuminate the entire past and by implication the future, it simply invites disbelief, and after closer inspection, rejection. Marx committed that folly, and to some extent so did Toynbee. They both offered an easy prey to the critics, and the result is that today historical determinism is regarded by most scholars as an idea so bankrupt that it can never be solvent again.

Suppression of individual rights

Various thinkers have argued that a communist state would by its very nature erode the rights of its citizens due to the postulated violent revolution and dictatorship of proletariat, its collectivist nature, reliance on "the masses" rather than individuals, historical materialism and centrally planned economy. These points have also been debated by various thinkers, who argue that we currently exist in a Dictatorship of the Bourgeoisie that Marxism is not deterministic.

The American neoclassical economist Milton Friedman argued that under socialism the absence of a free market economy would inevitably lead to an authoritarian political regime. Friedman's view was also shared by Friedrich Hayek, who also believed that capitalism is a precondition for freedom to flourish in a nation state. Daniel De Leon countered this by stating: "Capitalism is a fraud within a fraud. Proclaiming itself individualistic, it organizes collectively in order to promote the aims of a few. Socialism, on the other hand, [...] would secure to labor the products of its toil, now confiscated by the few, and, in this way, preserve to the workers, the majority of the population, a greater individuality than that which they now attain". David Harvey has responded to such claims by suggesting that socialism enables individual freedom, stating that "the achievement of individual liberties and freedoms is, I argued, a central aim of such emancipatory projects. But that achievement requires collectively building a society where each one of us has adequate life chances and life possibilities to realize each one of our own potentialities."

Anarchists have also argued that centralized communism will inevitably lead to coercion and state domination. Mikhail Bakunin believed Marxist regimes would lead to the "despotic control of the populace by a new and not at all numerous aristocracy". Even if this new aristocracy were to have originated from among the ranks of the proletariat, Bakunin argued that their new-found power would fundamentally change their view of society and thus lead them to "look down at the plain working masses".

Economic

Marxian economics have been criticized for a number of reasons. Some critics point to the Marxian analysis of capitalism while others argue that the economic system proposed by Marxism is unworkable.

There are also doubts that the rate of profit in capitalism would tend to fall as Marx predicted. In 1961, Marxian economist Nobuo Okishio devised a theorem (Okishio's theorem) showing that if capitalists pursue cost-cutting techniques and if the real wage does not rise, the rate of profit must rise.

Labor theory of value

The labor theory of value is one of the most commonly criticized core tenets of Marxism.

The Austrian School argues that this fundamental theory of classical economics is false and prefers the subsequent and modern subjective theory of value put forward by Carl Menger in his book Principles of Economics. The Austrian School was not alone in criticizing the Marxian and classical belief in the labor theory of value. British economist Alfred Marshall attacked Marx, saying: "It is not true that the spinning of yarn in a factory [...] is the product of the labour of the operatives. It is the product of their labour, together with that of the employer and subordinate managers, and of the capital employed". Marshall points to the capitalist as sacrificing the money he could be using now for investment in business, which ultimately produces work. By this logic, the capitalist contributes to the work and productivity of the factory because he delays his gratification through investment. Through the law of supply and demand, Marshall attacked Marxian theory of value. According to Marshall, price or value is determined not just by supply, but by the demand of the consumer. Labor does contribute to cost, but so do the wants and needs of consumers. The shift from labor being the source of all value to subjective individual evaluations creating all value undermines Marx's economic conclusions and some of his social theories.

Shimshon Bichler and Jonathan Nitzan argue that most studies purporting to show empirical evidence of the labor theory of value often make methodological errors by comparing the total labor value to total price of multiple economic sectors, which results in a strong overall correlation but this is a statistical exaggeration; the authors argue that the correlations between labor value and price in each sector are often very small if not insignificant. Bichler and Nitzan also argue that because it is difficult to quantify a way to measure abstract labor, researchers are forced to make assumptions. However, Bichler and Nitzan argue these assumptions involve circular reasoning:

The most important of these assumptions are that the value of labour power is proportionate to the actual wage rate, that the ratio of variable capital to surplus value is given by the price ratio of wages to profit, and occasionally also that the value of the depreciated constant capital is equal to a fraction of the capital’s money price. In other words, the researcher assumes precisely what the labour theory of value is supposed to demonstrate.

Distorted or absent price signals

The economic calculation problem is a criticism of socialist economics or, more precisely, of centralized socialist planned economies. It was first proposed by Austrian School economist Ludwig von Mises in 1920 and later expounded by Friedrich Hayek. The problem referred to is that of how to distribute resources rationally in an economy. The free market solution is the price mechanism, wherein people individually have the ability to decide how a good should be distributed based on their willingness to give money for it. The price conveys embedded information about the abundance of resources as well as their desirability which in turn allows on the basis of individual consensual decisions corrections that prevent shortages and surpluses. Mises and Hayek argued that this is the only possible solution and, without the information provided by market prices, socialism lacks a method to rationally allocate resources. The debate raged in the 1920s and 1930s and that specific period of the debate has come to be known by economic historians as the socialist calculation debate. In practice, socialist states like the Soviet Union used mathematical techniques to determine and set prices with mixed results.

Reduced incentives

Some critics of socialism argue that income sharing reduces individual incentives to work and therefore incomes should be individualised as much as possible. Critics of socialism have argued that in any society where everyone holds equal wealth there can be no material incentive to work because one does not receive rewards for work well done. They further argue that incentives increase productivity for all people and that the loss of those effects would lead to stagnation. In Principles of Political Economy (1848), John Stuart Mill said:

It is the common error of Socialists to overlook the natural indolence of mankind; their tendency to be passive, to be the slaves of habit, to persist indefinitely in a course once chosen. Let them once attain any state of existence which they consider tolerable, and the danger to be apprehended is that they will thenceforth stagnate; will not exert themselves to improve, and by letting their faculties rust, will lose even the energy required to preserve them from deterioration. Competition may not be the best conceivable stimulus, but it is at present a necessary one, and no one can foresee the time when it will not be indispensable to progress.

However, he later altered his views and became more sympathetic to socialism, particularly Fourierism, adding chapters to his Principles of Political Economy in defence of a socialist outlook and defending some socialist causes. Within this revised work, he also made the radical proposal that the whole wage system be abolished in favour of a co-operative wage system. Nonetheless, some of his views on the idea of flat taxation remained, albeit in a slightly toned-down form.

The economist John Kenneth Galbraith has criticised communal forms of socialism that promote egalitarianism in terms of wages or compensation as unrealistic in its assumptions about human motivation:

This hope [that egalitarian reward would lead to a higher level of motivation], one that spread far beyond Marx, has been shown by both history and human experience to be irrelevant. For better or worse, human beings do not rise to such heights. Generations of socialists and socially oriented leaders have learned this to their disappointment and more often to their sorrow. The basic fact is clear: the good society must accept men and women as they are.

Edgar Hardcastle responds to this by saying: "They want to work and need no more inducement than is given by the knowledge that work must be done to keep society going, and that they are playing their part in it along with their fellow men and women." He continues by criticising what he sees are the double standards of anti-socialists: "Notice how they object to the unemployed receiving a miserly dole without having to work, but never object to the millionaires (most of them in that position through inheritance) being able to live in luxurious idleness." Authors like Arnold Petersen argue that arguments such as these are inaccurate as hunter-gatherers practiced primitive communism without problems such as these.

Inconsistency

Vladimir Karpovich Dmitriev writing in 1898, Ladislaus von Bortkiewicz writing in 1906–1907 and subsequent critics have alleged that Karl Marx's value theory and law of the tendency of the rate of profit to fall are internally inconsistent. In other words, the critics allege that Marx drew conclusions that actually do not follow from his theoretical premises. Once those errors are corrected, Marx's conclusion that aggregate price and profit are determined by—and equal to—aggregate value and surplus value no longer holds true. This result calls into question his theory that the exploitation of workers is the sole source of profit.

The inconsistency allegations have been a prominent feature of Marxian economics and the debate surrounding it since the 1970s. Andrew Kliman argues that since internally inconsistent theories cannot possibly be right, this undermines Marx's critique of political economy and current-day research based upon it as well as the correction of Marx's alleged inconsistencies.

Critics who have alleged that Marx has been proved internally inconsistent include former and current Marxian and/or Sraffian economists, such as Paul Sweezy, Nobuo Okishio, Ian Steedman, John Roemer, Gary Mongiovi and David Laibman, who propose that the field be grounded in their correct versions of Marxian economics instead of in Marx's critique of political economy in the original form in which he presented and developed it in Capital.

Proponents of the temporal single system interpretation (TSSI) of Marx's value theory, like Kliman, claim that the supposed inconsistencies are actually the result of misinterpretation and argue that when Marx's theory is understood as "temporal" and "single-system", the alleged internal inconsistencies disappear. In a recent survey of the debate, Kliman concludes that "the proofs of inconsistency are no longer defended; the entire case against Marx has been reduced to the interpretive issue".

Relevance

Marxism has been criticized as irrelevant, with many economists rejecting its core tenets and assumptions. John Maynard Keynes referred to Capital as "an obsolete textbook which I know to be not only scientifically erroneous but without interest or application for the modern world". According to George Stigler, "Economists working in the Marxian-Sraffian tradition represent a small minority of modern economists, and that their writings have virtually no impact upon the professional work of most economists in major English-language universities". In a review of the first edition of The New Palgrave Dictionary of Economics, Robert Solow criticized it for overemphasizing the importance of Marxism in modern economics:

Marx was an important and influential thinker, and Marxism has been a doctrine with intellectual and practical influence. The fact is, however, that most serious English-speaking economists regard Marxist economics as an irrelevant dead end.

A 2006 nationally representative survey of American professors found 3% of them identify as Marxists. The share rises to 5% in the humanities and is about 18% among social scientists.

Social

Social criticism is based on the assertion that the Marxian conception of society is fundamentally flawed. The Marxist stages of history, class analysis and theory of social evolution have been criticised. Jean-Paul Sartre concluded that "class" was not a homogenous entity and could never mount a revolution, but continued to advocate Marxist beliefs. Marx himself admitted that his theory could not explain the internal development of the Asiatic social system, where much of the world's population lived for thousands of years.

Epistemological

Arguments against Marxism are often based on epistemological reasoning. Specifically, various critics have contended that Marx or his adherents have a flawed approach to epistemology.

According to Leszek Kołakowski, the laws of dialectics at the very base of Marxism are fundamentally flawed: some are "truisms with no specific Marxist content", others "philosophical dogmas that cannot be proved by scientific means", yet others just "nonsense". Some Marxist "laws" are vague and can be interpreted differently, but these interpretations generally fall into one of the aforementioned categories of flaws as well. However, Ralph Miliband countered that Kolakowski had a flawed understanding of Marxism and its relation to Leninism and Stalinism.

Economist Thomas Sowell wrote in 1985:

What Marx accomplished was to produce such a comprehensive, dramatic, and fascinating vision that it could withstand innumerable empirical contradictions, logical refutations, and moral revulsions at its effects. The Marxian vision took the overwhelming complexity of the real world and made the parts fall into place, in a way that was intellectually exhilarating and conferred such a sense of moral superiority that opponents could be simply labelled and dismissed as moral lepers or blind reactionaries. Marxism was – and remains – a mighty instrument for the acquisition and maintenance of political power.

Many notable academics such as Karl Popper, David Prychitko, Robert C. Allen, and Francis Fukuyama argue that many of Marx's predictions have failed. Marx predicted that wages would tend to depreciate and that capitalist economies would suffer worsening economic crises leading to the ultimate overthrow of the capitalist system. The socialist revolution would occur first in the most advanced capitalist nations and once collective ownership had been established then all sources of class conflict would disappear. Instead of Marx's predictions, communist revolutions took place in undeveloped regions in Latin America and Asia instead of industrialized countries like the United States or the United Kingdom.

Popper has argued that both the concept of Marx's historical method as well as its application are unfalsifiable and thus it is a pseudoscience that cannot be proven true or false:

The Marxist theory of history, in spite of the serious efforts of some of its founders and followers, ultimately adopted this soothsaying practice. In some of its earlier formulations (for example in Marx's analysis of the character of the 'coming social revolution') their predictions were testable, and in fact falsified. Yet instead of accepting the refutations the followers of Marx re-interpreted both the theory and the evidence in order to make them agree. In this way they rescued the theory from refutation; but they did so at the price of adopting a device which made it irrefutable. They thus gave a 'conventionalist twist' to the theory; and by this stratagem they destroyed its much advertised claim to scientific status.

Popper believed that Marxism had been initially scientific, in that Marx had postulated a theory which was genuinely predictive. When Marx's predictions were not in fact borne out, Popper argues that the theory was saved from falsification by the addition of ad hoc hypotheses which attempted to make it compatible with the facts. By this means, a theory which was initially genuinely scientific degenerated into pseudoscientific dogma. Popper agreed on the general non-falsifiability of the social sciences, but instead used it as an argument against central planning and all-encompassing historiographical ideologies. Popper devoted much attention to dissecting the practice of using the dialectic in defence of Marxist thought, which was the very strategy employed by V.A. Lektorsky in his defence of Marxism against Popper's criticisms. Among Popper's conclusions was that Marxists used dialectic as a method of side-stepping and evading criticisms, rather than actually answering or addressing them:

Hegel thought that philosophy develops; yet his own system was to remain the last and highest stage of this development and could not be superseded. The Marxists adopted the same attitude towards the Marxian system. Hence, Marx's anti-dogmatic attitude exists only in the theory and not in the practice of orthodox Marxism, and dialectic is used by Marxists, following the example of Engels' Anti-Dühring, mainly for the purposes of apologetics – to defend the Marxist system against criticism. As a rule critics are denounced for their failure to understand the dialectic, or proletarian science, or for being traitors. Thanks to dialectic the anti-dogmatic attitude has disappeared, and Marxism has established itself as a dogmatism which is elastic enough, by using its dialectic method, to evade any further attack. It has thus become what I have called reinforced dogmatism.

Bertrand Russell has criticized as unscientific Marx's belief in progress as a universal law. Russell stated: "Marx professed himself an atheist, but retained a cosmic optimism which only theism could justify". Marxists like Thomas Riggins have claimed that Russell misrepresented Marx's ideas.

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