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Sunday, March 19, 2023

Neuroeconomics

From Wikipedia, the free encyclopedia
 
Cerebral hemisphere
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Human brain seen from front.
 
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  Right cerebral hemisphere
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LatinHemisphaerium cerebri
Anatomical terms of neuroanatomy

Neuroeconomics is an interdisciplinary field that seeks to explain human decision-making, the ability to process multiple alternatives and to follow through on a plan of action. It studies how economic behavior can shape our understanding of the brain, and how neuroscientific discoveries can guide models of economics.

It combines research from neuroscience, experimental and behavioral economics, and cognitive and social psychology. As research into decision-making behavior becomes increasingly computational, it has also incorporated new approaches from theoretical biology, computer science, and mathematics. Neuroeconomics studies decision-making by using a combination of tools from these fields so as to avoid the shortcomings that arise from a single-perspective approach. In mainstream economics, expected utility (EU) and the concept of rational agents are still being used. Neuroscience has the potential to reduce the reliance on this flawed assumption by inferring what emotions, habits, biases, heuristics and environmental factors contribute to individual, and societal preferences. Economists can thereby make more accurate predictions of human behavior in their models.

Behavioral economics was the first subfield to emerge to account for these anomalies by integrating social and cognitive factors in understanding economic decisions. Neuroeconomics adds another layer by using neuroscience and psychology to understand the root of decision-making. This involves researching what occurs within the brain when making economic decisions. The economic decisions researched can cover diverse circumstances such as buying a first home, voting in an election, choosing to marry a partner or go on a diet. Using tools from various fields, neuroeconomics works toward an integrated account of economic decision-making.

History

In 1989, Paul Glimcher joined the Center for Neural Science at NYU. Initial forays into neuroeconomic topics occurred in the late 1990s thanks, in part, to the rising prevalence of cognitive neuroscience research. Improvements in brain imaging technology suddenly allowed for crossover between behavioral and neurobiological enquiry. At the same time, critical tension was building between neoclassical and behavioral schools of economics seeking to produce superior predictive models of human behavior. Behavioral economists, in particular, sought to challenge neo-classicists by looking for alternative computational and psychological processes that validated their counter-findings of irrational choice. These converging trends set the stage for the sub-discipline of neuroeconomics to emerge, with varying and complementary motivations from each parent discipline.

Behavioral economists and cognitive psychologists looked towards functional brain imaging to experiment and develop their alternative theories of decision-making. While groups of physiologists and neuroscientists looked towards economics to develop their algorithmic models of neural hardware pertaining to choice. This split approach characterised the formation of neuroeconomics as an academic pursuit - not without criticism however. Numerous neurobiologists claimed that attempting to synchronise complex models of economics to real human and animal behavior would be futile. Neoclassical economists also argued that this merge would be unlikely to improve the predictive power of the existing revealed preference theory.

Despite the early criticisms, neuroeconomics grew rapidly from its inception in the late 1990s through to the 2000s. Leading many more scholars from father fields of economics, neuroscience and psychology to take notice of the possibilities of such interdisciplinary collaboration. Meetings between scholars and early researchers in neuroeconomics began to take place through the early 2000s. Important among them was a meeting that took place during 2002 at Princeton University. Organized by neuroscientist Jonathan Cohen and economist Christina Paxson, the Princeton meeting gained significant traction for the field and is often credited as the formative beginning of the present-day Society for Neuroeconomics.

The subsequent momentum continued throughout the decade of the 2000s in which research was steadily increasing and the number of publications containing the words "decision making" and "brain" rose impressively. A critical point in 2008 was reached when the first edition of Neuroeconomics: Decision Making and the Brain was published. This marked a watershed moment for the field as it accumulated the growing wealth of research into a widely accessible textbook. The success of this publication sharply increased the visibility of Neuroeconomics and helped affirm its place in economic teachings worldwide.

Major research areas

The field of decision-making is largely concerned with the processes by which individuals make a single choice from among many options. These processes are generally assumed to proceed in a logical manner such that the decision itself is largely independent of context. Different options are first translated into a common currency, such as monetary value, and are then compared to one another and the option with the largest overall utility value is the one that should be chosen. While there has been support for this economic view of decision-making, there are also situations where the assumptions of optimal decision-making seem to be violated.

The field of neuroeconomics arose out of this controversy. By determining which brain areas are active in which types of decision processes, neuroeconomists hope to better understand the nature of what seem to be suboptimal and illogical decisions. While most of these scientists are using human subjects in this research, others are using animal models where studies can be more tightly controlled and the assumptions of the economic model can be tested directly.

For example, Padoa-Schioppa & Assad tracked the firing rates of individual neurons in the monkey orbitofrontal cortex while the animals chose between two kinds of juice. The firing rate of the neurons was directly correlated with the utility of the food items and did not differ when other types of food were offered. This suggests that, in accordance with the economic theory of decision-making, neurons are directly comparing some form of utility across different options and choosing the one with the highest value. Similarly, a common measure of prefrontal cortex dysfunction, the FrSBe, is correlated with multiple different measures of economic attitudes and behavior, supporting the idea that brain activation can display important aspects of the decision process.

Neuroeconomics studies the neurobiological along with the computational bases of decision-making. A framework of basic computations which may be applied to Neuroeconomics studies is proposed by A. Rangel, C. Camerer, and P. R. Montague. It divides the process of decision-making into five stages implemented by a subject. First, a representation of the problem is formed. This includes analysis of internal states, external states and potential course of action. Second, values are assigned to potential actions. Third, based on the valuations, one of the actions is selected. Fourth, the subject evaluates how desirable the outcome is. In the final stage, learning, includes updating all of the above processes in order to improve future decisions.

Decision-making under risk and ambiguity

Most of our decisions are made under some form of uncertainty. Decision sciences such as psychology and economics usually define risk as the uncertainty about several possible outcomes when the probability of each is known. When the probabilities are unknown, uncertainty takes the form of ambiguity. Utility maximization, first proposed by Daniel Bernoulli in 1738, is used to explain decision-making under risk. The theory assumes that humans are rational and will assess options based on the expected utility they will gain from each.

Research and experience uncovered a wide range of expected utility anomalies and common patterns of behavior that are inconsistent with the principle of utility maximization – for example, the tendency to overweight small probabilities and underweight large ones. Daniel Kahneman and Amos Tversky proposed prospect theory to encompass these observations and offer an alternative model.

There seem to be multiple brain areas involved in dealing with situations of uncertainty. In tasks requiring individuals to make predictions when there is some degree of uncertainty about the outcome, there is an increase in activity in area BA8 of the frontomedian cortex as well as a more generalized increase in activity of the mesial prefrontal cortex and the frontoparietal cortex. The prefrontal cortex is generally involved in all reasoning and understanding, so these particular areas may be specifically involved in determining the best course of action when not all relevant information is available.

The Iowa Gambling Task developing in 1994, involved picking from 4 decks of cards where 2 decks were riskier, containing higher payoffs accompanied by much heftier penalties. Most individuals realise after a few rounds of picking cards that the less risky decks have higher payoffs in the long run due to the small losses, however individuals with damage to the ventromedial prefrontal cortex continue picking from the riskier decks. These results suggested the ventromedial prefrontal region of the brain in strongly associated with recognising the long term consequences of risky behavior as patients with damage to the region struggled to make decisions that prioritised the future over the potential for immediate gain.

In situations that involve known risk rather than ambiguity, the insular cortex seems to be highly active. For example, when subjects played a 'double or nothing' game in which they could either stop the game and keep accumulated winnings or take a risky option resulting in either a complete loss or doubling of winnings, activation of the right insula increased when individuals took the gamble. It is hypothesized that the main role of the insular cortex in risky decision-making is to simulate potential negative consequences of taking a gamble. Neuroscience has found the insular is activated when thinking about or experiencing something uncomfortable or painful.

In addition to the importance of specific brain areas to the decision process, there is also evidence that the neurotransmitter dopamine may transmit information about uncertainty throughout the cortex. Dopaminergic neurons are strongly involved in the reward process and become highly active after an unexpected reward occurs. In monkeys, the level of dopaminergic activity is highly correlated with the level of uncertainty such that the activity increases with uncertainty. Furthermore, rats with lesions to the nucleus accumbens, which is an important part of the dopamine reward pathway through the brain, are far more risk averse than normal rats. This suggests that dopamine may be an important mediator of risky behavior.

Individual level of risk aversion among humans is influenced by testosterone concentration. There are studies exhibiting correlation between the choice of a risky career (financial trading, business) and testosterone exposure. In addition, daily achievements of traders with lower digit ratio are more sensitive to circulating testosterone. A long-term study of risk aversion and risky career choice was conducted for a representative group of MBA students. It revealed that females are in average more risk averse, but the difference between genders vanishes for low organizational and activational testosterone exposure leading to risk-averse behavior. Students with high salivary testosterone concentration and low digit ratio, disregarding the gender, tend to choose risky career in finance (e.g. trading or investment banking).

Serial and functionally localized model vs distributed, hierarchical model

In 2017 March, Laurence T. Hunt and Benjamin Y. Hayden argued an alternative viewpoint of the mechanistic model to explain how we evaluate options and choose the best course of action. Many accounts of reward-based choice argue for distinct component processes that are serial and functionally localized. The component processes typically include the evaluation of options, the comparison of option values in the absence of any other factors, the selection of an appropriate action plan and the monitoring of the outcome of the choice. They emphasized how several features of neuroanatomy may support the implementation of choice, including mutual inhibition in recurrent neural networks and the hierarchical organization of timescales for information processing across the cortex.

Loss aversion

One aspect of human decision-making is a strong aversion to potential loss. Under loss aversion, the perceived cost of loss is experienced more intensely than an equivalent gain. For example, if there was a 50/50 chance of either winning $100 or losing $100, and a loss occurred, the accompanying reaction would emulate losing $200; that is the sum of both losing $100 and the possibility of winning $100. This was first discovered in Prospect Theory by Daniel Kahneman and Amos Tversky.

Prospect Theory model originally from Daniel Kahneman and Amos Tversky demonstrating how losses are felt more than gains.

One of the main controversies in understanding loss aversion is whether the phenomenon manifests in the brain, perhaps as increased attention and arousal with losses. Another area of research is whether loss aversion is evident in sub-cortices, such as the limbic system, thereby involving emotional arousal.

A basic controversy in loss aversion research is whether losses are actually experienced more negatively than equivalent gains or merely predicted to be more painful but actually experienced equivalently. Neuroeconomic research has attempted to distinguish between these hypotheses by measuring different physiological changes in response to both loss and gain. Studies have found that skin conductance, pupil dilation and heart rate are all higher in response to monetary loss than to equivalent gain. All three measures are involved in stress responses, so one might argue that losing a particular amount of money is experienced more strongly than gaining the same amount. On the other hand, in some of these studies, there was no physiological signals of loss aversion. That may suggest that the experience of losses is merely on attention (what is known as loss attention); such attentional orienting responses also lead to increased autonomic signals.

Brain studies have initially suggested that there is increased medial prefrontal and anterior cingulate cortex rapid response following losses compared to gains, which was interpreted as a neural signature of loss aversion. However, subsequent reviews have noticed that in this paradigm individuals do not actually show behavioral loss aversion casting doubts on the interpretability of these findings. With respect to fMRI studies, while one study found no evidence for an increase in activation in areas related to negative emotional reactions in response to loss aversion another found that individuals with damaged amygdalas had a lack of loss aversion even though they had normal levels of general risk aversion, suggesting that the behavior was specific to potential losses. These conflicting studies suggest that more research needs to be done to determine whether brain response to losses is due to loss aversion or merely to an alerting or orienting aspect of losses; as well as to examine if there are areas in the brain that respond specifically to potential losses .

Intertemporal choice

In addition to risk preference, another central concept in economics is intertemporal choices which are decisions that involve costs and benefits that are distributed over time. Intertemporal choice research studies the expected utility that humans assign to events occurring at different times. The dominant model in economics which explains it is discounted utility (DU). DU assumes that humans have consistent time preference and will assign value to events regardless of when they occur. Similar to EU in explaining risky decision-making, DU is inadequate in explaining intertemporal choice.

For example, DU assumes that people who value a bar of candy today more than 2 bars tomorrow, will also value 1 bar received 100 days from now more than 2 bars received after 101 days. There is strong evidence against this last part in both humans and animals, and hyperbolic discounting has been proposed as an alternative model. Under this model, valuations fall very rapidly for small delay periods, but then fall slowly for longer delay periods. This better explains why most people who would choose 1 candy bar now over 2 candy bars tomorrow, would, in fact, choose 2 candy bars received after 101 days rather than the 1 candy bar received after 100 days which DU assumes.

Neuroeconomic research in intertemporal choice is largely aimed at understanding what mediates observed behaviors such as future discounting and impulsively choosing smaller sooner rather than larger later rewards. The process of choosing between immediate and delayed rewards seems to be mediated by an interaction between two brain areas. In choices involving both primary (fruit juice) and secondary rewards (money), the limbic system is highly active when choosing the immediate reward while the lateral prefrontal cortex was equally active when making either choice. Furthermore, the ratio of limbic to cortex activity decreased as a function of the amount of time until reward. This suggests that the limbic system, which forms part of the dopamine reward pathway, is most involved in making impulsive decisions while the cortex is responsible for the more general aspects of the intertemporal decision process.

The neurotransmitter serotonin seems to play an important role in modulating future discounting. In rats, reducing serotonin levels increases future discounting while not affecting decision-making under uncertainty. It seems, then, that while the dopamine system is involved in probabilistic uncertainty, serotonin may be responsible for temporal uncertainty since delayed reward involves a potentially uncertain future. In addition to neurotransmitters, intertemporal choice is also modulated by hormones in the brain. In humans, a reduction in cortisol, released by the hypothalamus in response to stress, is correlated with a higher degree of impulsivity in intertemporal choice tasks. Drug addicts tend to have lower levels of cortisol than the general population, which may explain why they seem to discount the future negative effects of taking drugs and opt for the immediate positive reward.

Social decision-making

While most research on decision-making tends to focus on individuals making choices outside of a social context, it is also important to consider decisions that involve social interactions. The types of behavior that decision theorists study are as diverse as altruism, cooperation, punishment, and retribution. One of the most frequently utilized tasks in social decision-making is the prisoner's dilemma.

In this situation, the payoff for a particular choice is dependent not only on the decision of the individual but also on that of another individual playing the game. An individual can choose to either cooperate with his partner or defect against the partner. Over the course of a typical game, individuals tend to prefer mutual cooperation even though defection would lead to a higher overall payout. This suggests that individuals are motivated not only by monetary gains but also by some reward derived from cooperating in social situations.

This idea is supported by neural imaging studies demonstrating a high degree of activation in the ventral striatum when individuals cooperate with another person but that this is not the case when people play the same prisoner's dilemma against a computer. The ventral striatum is part of the reward pathway, so this research suggests that there may be areas of the reward system that are activated specifically when cooperating in social situations. Further support for this idea comes from research demonstrating that activation in the striatum and the ventral tegmental area show similar patterns of activation when receiving money and when donating money to charity. In both cases, the level of activation increases as the amount of money increases, suggesting that both giving and receiving money results in neural reward.

An important aspect of social interactions such as the prisoner's dilemma is trust. The likelihood of one individual cooperating with another is directly related to how much the first individual trusts the second to cooperate; if the other individual is expected to defect, there is no reason to cooperate with them. Trust behavior may be related to the presence of oxytocin, a hormone involved in maternal behavior and pair bonding in many species. When oxytocin levels were increased in humans, they were more trusting of other individuals than a control group even though their overall levels of risk-taking were unaffected suggesting that oxytocin is specifically implicated in the social aspects of risk taking. However this research has recently been questioned.

One more important paradigm for neuroeconomic studies is ultimatum game. In this game Player 1 gets a sum of money and decides how much he wants to offer Player 2. Player 2 either accepts or rejects the offer. If he accepts both players get the amount as proposed by Player 1, if he rejects nobody gets anything. Rational strategy for Player 2 would be to accept any offer because it has more value than zero. However, it has been shown that people often reject offers that they consider as unfair. Neuroimaging studies indicated several brain regions that are activated in response to unfairness in ultimatum game. They include bilateral mid-anterior insula, anterior cingulate cortex (ACC), medial supplementary motor area (SMA), cerebellum and right dorsolateral prefrontal cortex (DLPFC). It has been shown that low-frequency repetitive transcranial magnetic stimulation of DLPFC increases the likelihood of accepting unfair offers in the ultimatum game.

Another issue in the field of neuroeconomics is represented by role of reputation acquisition in social decision-making. Social exchange theory claims that prosocial behavior originates from the intention to maximize social rewards and minimize social costs. In this case, approval from others may be viewed as a significant positive reinforcer - i.e., a reward. Neuroimaging studies have provided evidence supporting this idea – it was shown that processing of social rewards activates striatum, especially left putamen and left caudate nucleus, in the same fashion these areas are activated during the processing of monetary rewards. These findings also support so-called "common neural currency" idea, which assumes existence of shared neural basis for processing of different types of reward.

Sexual decision-making

Regarding the choice of sexual partner, research studies have been conducted on humans and on nonhuman primates. Notably, Cheney & Seyfarth 1990, Deaner et al. 2005, and Hayden et al. 2007 suggest a persistent willingness to accept fewer physical goods or higher prices in return for access to socially high-ranking individuals, including physically attractive individuals, whereas increasingly high rewards are demanded if asked to relate to low-ranking individuals.

Cordelia Fine is most well known for her research on gendered minds and sexual decision-making. In her book Testosterone Rex she critiques sex differences in the brain and goes into detail on the economic cost and benefits of finding a partner, as interpreted and analysed by our brains. Her showcases an interesting sub-topic of neuroeconomics.

The neurobiological basis for this preference includes neurons of the lateral intraparietal cortex (LIP), which is related to eye movement, and which is operative in situations of two-alternative forced choices.

Methodology

Behavioral economics experiments record the subject's decisions over various design parameters and use the data to generate formal models that predict performance. Neuroeconomics extends this approach by adding states of the nervous system to the set of explanatory variables. The goal of neuroeconomics is to help explain decisions and to enrich the data sets available for testing predictions.

Furthermore, neuroeconomic research is being used to understand and explain aspects of human behavior that do not conform to traditional economic models. While these behavior patterns are generally dismissed as 'fallacious' or 'illogical' by economists, neuroeconomic researchers are trying to determine the biological reasons for these behaviors. By using this approach, researchers may be able to find explanations for why people often act sub-optimally. Richard Thaler provides a prime example in his book Misbehaving, detailing a scenario where an appetiser is served before a meal and guest accidentally fill up of it. Most people need the appetiser to be completely hidden in order to stop themselves from the temptation, where as a rational agent would simply stop and wait for the meal. Temptation is just one of the many irrationalities that have been ignored due to difficulties of studying them.

Neurobiological research techniques

There are several different techniques that can be utilized to understand the biological basis of economic behavior. Neural imaging is used in human subjects to determine which areas of the brain are most active during particular tasks. Some of these techniques, such as fMRI or PET are best suited to giving detailed pictures of the brain which can give information about specific structures involved in a task. Other techniques, such as ERP (event-related potentials) and oscillatory brain activity are used to gain detailed knowledge of the time course of events within a more general area of the brain. If a specific region of the brain is suspected to be involved in a type of economic decision-making, researchers may use Transcranial Magnetic Stimulation (TMS) to temporarily disrupt that region, and compare the results to when the brain was allowed to function normally. More recently, there has been interest in the role that brain structure, such as white matter connectivity between brain areas, plays in determining individual differences in reward-based decision-making.

Neuroscience does not always involve observing the brain directly, as brain activity can also be interpret by physiological measurements such skin conductance, heart rate, hormones, pupil dilation and muscle contraction known as electromyography, especially of the face to infer emotions linked to decisions.

In addition to studying areas of the brain, some studies are aimed at understanding the functions of different brain chemicals in relation to behavior. This can be done by either correlating existing chemical levels with different behavior patterns or by changing the amount of the chemical in the brain and noting any resulting behavioral changes. For example, the neurotransmitter serotonin seems to be involved in making decisions involving intertemporal choice while dopamine is utilized when individuals make judgments involving uncertainty. Furthermore, artificially increasing oxytocin levels increases trust behavior in humans while individuals with higher cortisol levels tend to be more impulsive and exhibit more future discounting.

In addition to studying the behavior of neurologically normal individuals in decision-making tasks, some research involves comparing that behavior to individuals with damage to areas of the brain expected to be involved in decision-making. In humans, this means finding individuals with specific types of neural impairment. These case studies may have things like amygdala damage, leading to a decrease in loss aversion compared to controls. Also, scores from a survey measuring prefrontal cortex dysfunction are correlated with general economic attitudes, like risk preferences.

Previous studies investigated the behavioral patterns of patients with psychiatric disorders, such as schizophrenia, autism, depression, or Neuroeconomics of Addiction, to get the insights of their pathophysiology. In animal studies, highly controlled experiments can get more specific information about the importance of brain areas to economic behavior. This can involve either lesioning entire brain areas and measuring resulting behavior changes or using electrodes to measure the firing of individual neurons in response to particular stimuli.

Experiments

As explained in Methodologies above, in a typical behavioral economics experiment, a subject is asked to make a series of economic decisions. For example, a subject may be asked whether they prefer to have 45 cents or a gamble with a 50% chance to win one dollar. Many experiments involve the participant completing games where they either make one-off of repeated decisions and psychological responses and reaction time is measured. For example, it is common to test peoples relationship with the future, known as future discounting, by asking them questions such as "would you prefer $10 today, or $50 in a year from today?"  The experimenter will then measure different variables in order to determine what is going on in the subject's brain as they make the decision. Some authors have demonstrated that neuroeconomics may be useful to describe not only experiments involving rewards but also common psychiatric syndromes involving addiction or delusion.

Criticisms

From the beginnings of neuroeconomics and throughout its swift academic rise, criticisms have been voiced over the field's validity and usefulness. Glenn W. Harris and Emanuel Donchin have both criticized the emerging field, with the former publishing his concerns in 2008 with the paper 'Neuroeconomics: A Critical Reconsideration'. Harris surmises that much of the neuroscience-assisted insights into economic modelling is "academic marketing hype" and that the true substance of the field is yet to present itself and needs to be seriously reconsidered. He also mentions that methodologically, many of the studies in neuroeconomics are flawed by their small sample sizes and limited applicability.

A review of the learnings of neuroeconomics, published in 2016 by Arkady Konovalov, shared the sentiment that the field suffers from experimental shortcomings. Primary among them being a lack of analogous ties between specific brain regions and some psychological constructs such as "value". The review mentions that although early neuroeconomic fMRI studies assumed that specific brain regions were singularly responsible for one function in the decision-making process, they have subsequently been shown to be recruiting in multiple different functions. The practice of reverse inference has therefore seen much less use and has hurt the field. Instead, FMRI should not be a standalone methodology, but rather be collected and connected to self-reports and behavioral data. The validity of using functional neuroimaging in consumer neuroscience can be improved by carefully designing studies, conducting meta-analyses, and connecting psychometric and behavioral data with data from neuroimaging.

Ariel Rubinstein, an economist at the University of Tel Aviv, spoke about neuroeconomic research, saying "standard experiments provide little information about the procedures of choice as it is difficult to extrapolate from a few choice observations to the entire choice function. If we want to know more about human procedures of choice we need to look somewhere else". These comments echo a salient and consistent argument of traditional economists against the neuroeconomic approach that the use of non-choice data, such as response times, eye-tracking and neural signals that people generate during decision-making, should be excluded from any economic analysis.

Other critiques have also included claims that neuroeconomics is "a field that oversells itself"; or that neuroeconomic studies "misunderstand and underestimate traditional economic models".

Applications

Currently, the real-world applications and predictions of neuroeconomics are still unknown or under-developed as the burgeoning field continues to grow. Some criticisms have been made that the accumulation of research and its findings have so far produced little in the way of pertinent recommendations to economic policy-makers. But many neuroeconomists insist that the potential of the field to enhance our understanding of the brain's machinations with decision-making may prove highly influential in the future.

In particular, the findings of specific neurological markers of individual preferences may have important implications for well-known economic models and paradigms. An example of this is the finding that an increase in computational capacity (likely related to increased gray matter volume) could lead to higher risk tolerance by loosening the constraints that govern subjective representations of probabilities and rewards in lottery tasks.

Economists are also looking at neuroeconomics to assist with explanations of group aggregate behavior that have market-level implications. For example, many researchers anticipate that neurobiological data may be used to detect when individuals or groups of individuals are likely to exhibit economically problematic behavior. This may be applied to the concept of market bubbles. These occurrences are majorly consequential in modern society and regulators could gain substantial insights into their formulation and lack of prediction/prevention.

Neuroeconomic work has also seen a close relationship with academic investigations of addiction. Researchers acknowledged, in the 2010 publication 'Advances in the Neuroscience of Addiction: 2nd Edition', that the neuroeconomic approach serves as a "powerful new conceptual method that is likely to be critical for progress in understanding addictive behavior".

German neuroscientist Tania Singer spoke at the World Economic Forum in 2015 about her research in compassion training. While economics and neuroscience are largely spilt, her research is an example of how they can meld together. Her study revealed a preference change toward prosocial behavior after 3 months of compassion training. She also demonstrated a structural change in the grey matter of the brain indicating new neural connections had formed as a result of the mental training. She showed that if economists utilised predictors other than consumption, they could model and predict a more diverse range economic behaviors. She also advocated that neuroeconomics could vastly improve policymaking as we can create contexts that predictably lead to positive behavioral outcomes such as prosocial behavior when caring emotions are primed. Her research demonstrates the impact neuroeconomics could have on our individual psyches, our societal norms and political landscapes at large.

Neuromarketing is another applied example of a distinct discipline closely related to neuroeconomics. While broader neuroeconomics has more academic aims, since it studies the basic mechanisms of decision-making, neuromarketing is an applied sub-field which uses neuroimaging tools for market investigations. Insights derived from brain imaging technologies (fMRI) are typically used to analyse the brain's response to particular marketing stimuli.

Another neuroscientist, Emily Falk contributed to the neuroeconomics and neuromarketing fields by researching how the brain reacts to marketing aimed at evoking behavioral change. Specifically, her paper on anti-smoking advertisements highlighted the disparity between what advertisements we believe will be convincing and what the brain responds to most positively. The advertisement the experts and trial audience agreed on as being the most effective anti-smoking campaign actually elicited very little behavioral change in smokers. Meanwhile, the campaign ranked least likely to be effective by the experts and audience, generated the strongest neural response in the medial prefrontal cortex and resulted in the largest number of people deciding to quit smoking. This revealed that often our brains may know better than us when it comes to what motivators lead to behavioral change. It also emphasises the importance of integrating neuroscience into mainstream and behavioral economics to generate more wholistic models and accurate predictions. This research could have impacts in promoting healthier diets, more exercise, or encouraging people to make behavioral changes that benefit the environment and reduce climate change.

Evolutionary economics

From Wikipedia, the free encyclopedia

Evolutionary economics is part of mainstream economics as well as a heterodox school of economic thought that is inspired by evolutionary biology. Much like mainstream economics, it stresses complex interdependencies, competition, growth, structural change, and resource constraints but differs in the approaches which are used to analyze these phenomena. Some scholars prefer to call their evolutionary theory by a different names. Samuel Bowles named it "evolutionary social science"  and Joachim Rennstich called it "evolutionary systems theory".

Evolutionary economics deals with the study of processes that transform economy for firms, institutions, industries, employment, production, trade and growth within, through the actions of diverse agents from experience and interactions, using evolutionary methodology. Evolutionary economics analyzes the unleashing of a process of technological and institutional innovation by generating and testing a diversity of ideas which discover and accumulate more survival value for the costs incurred than competing alternatives. The evidence suggests that it could be adaptive efficiency that defines economic efficiency. Mainstream economic reasoning begins with the postulates of scarcity and rational agents (that is, agents modeled as maximizing their individual welfare), with the "rational choice" for any agent being a straightforward exercise in mathematical optimization. There has been renewed interest in treating economic systems as evolutionary systems in the developing field of Complexity economics.

Evolutionary economics does not take the characteristics of either the objects of choice or of the decision-maker as fixed. Rather, its focus is on the non-equilibrium processes that transform the economy from within and their implications. The processes in turn emerge from actions of diverse agents with bounded rationality who may learn from experience and interactions and whose differences contribute to the change. The subject draws more recently on evolutionary game theory and on the evolutionary methodology of Charles Darwin and the non-equilibrium economics principle of circular and cumulative causation. It is naturalistic in purging earlier notions of economic change as teleological or necessarily improving the human condition.

A different approach is to apply evolutionary psychology principles to economics which is argued to explain problems such as inconsistencies and biases in rational choice theory. Basic economic concepts such as utility may be better viewed as due to preferences that maximized evolutionary fitness in the ancestral environment but not necessarily in the current one.

Predecessors

Marx based his theory of economic development on the premise of developing economic systems; specifically, over the course of history superior economic systems would replace inferior ones. Inferior systems were beset by internal contradictions and inefficiencies that make them impossible to survive over the long term. In Marx's scheme, feudalism was replaced by capitalism, which would eventually be superseded by socialism.

Veblen (1898)

Thorstein Veblen (1898) coined the term "evolutionary economics" in English. He began his career in the midst of this period of intellectual ferment, and as a young scholar came into direct contact with some of the leading figures of the various movements that were to shape the style and substance of social sciences into the next century and beyond. Veblen saw the need for taking account of cultural variation in his approach; no universal "human nature" could possibly be invoked to explain the variety of norms and behaviors that the new science of anthropology showed to be the rule, rather than the exception. He emphasized the conflict between "industrial" and "pecuniary" or ceremonial values and this Veblenian dichotomy was interpreted in the hands of later writers as the "ceremonial/instrumental dichotomy" (Hodgson 2004);

Later development

A seminal article by Armen Alchian (1950) argued for adaptive success of firms faced with uncertainty and incomplete information replacing profit maximization as an appropriate modeling assumption. Milton Friedman proposed that markets act as major selection vehicles. As firms compete, unsuccessful rivals fail to capture an appropriate market share, go bankrupt and have to exit. The variety of competing firms is both in their products and practices, that are matched against markets. Both products and practices are determined by routines that firms use: standardized patterns of actions implemented constantly. By imitating these routines, firms propagate them and thus establish inheritance of successful practices. Kenneth Boulding was one of the advocates of the evolutionary methods in social science, as is evident from Kenneth Boulding's Evolutionary Perspective. Kenneth Arrow, Ronald Coase and Douglass North are some of the Bank of Sweden Prize in Economic Sciences in Memory of Alfred Nobel winners who are known for their sympathy to the field.

More narrowly the works Jack Downie and Edith Penrose offer many insights for those thinking about evolution at the level of the firm in an industry.

Nelson and Winter (1982) and after

Richard R. Nelson and Sidney G. Winter's book An Evolutionary Theory of Economic Change (1982, Paperback 1985) was a real seminal work that marked a renaissance of evolutionary economics. It lead to the dissemination of the evolutionary ideas among wide strands of economists and was followed by foundations of International Joseph A. Schumpeter Society, European Association for Evolutionary Political Economy, Japan Association for Evolutionary Economics, and Korean Society for Innovation Management and Economics.

Nelson and Winter have focused mostly on the issue of changes in technology and routines, suggesting a framework for their analysis. Evolution and change must be distinguished. Prices and quantities constantly change but it is not an evolution. For an evolution takes place, there must be something that evolves. Their approach can be compared and contrasted with the population ecology or organizational ecology approach in sociology: see Douma & Schreuder (2013, chapter 11). More recently, Nelson, Dosi, Pyka, Malerba, Winter and other scholars have been proposing an update of the state-of-art in evolutionary economics.

Evolution and change must be distinguished. Prices, quantities and GDPs constantly change through time but they are not evolution. Pier P. Saviotti pointed out as key concepts of evolution three ideas: variation, selection, and reproduction. The concept of reproduction is often replaced by replication or retention. Retention is preferred in evolutionary organization theory. Other related concepts are fitness, adaptation, population, interactions, and environment. Each item is related to selection, learning, population dynamics, economic transactions, and boundary conditions. Nelson and Winter raised two major examples of evolving entities: technologies and organizational routines. Yoshinori Shiozawa listed four entities that evolve: economic behaviors, commodities, technologies, and institutions. Then, mechanisms that provide selection, generate variation and establish self-replication, must be identified. A general theory of this evolutionary process has been proposed by Kurt Dopfer, John Foster and Jason Potts as the micro meso macro framework.

Evolutionary economics had developed and ramified into various fields or topics. They include technology and economic growth, institutional economics, organization studies, innovation study, management, and policy, and criticism of mainstream economics.

Economic processes, as part of life processes, are intrinsically evolutionary. From the evolutionary equation that describe life processes, an analytical formula on the main factors of economic processes, such as fixed cost and variable cost, can be derived. The economic return, or competitiveness, of economic entities of different characteristics under different kinds of environment can be calculated.

In recent years, evolutionary models have been used to assist decision making in applied settings and find solutions to problems such as optimal product design and service portfolio diversification.

Why does evolution matter in economics

Evolutionary economics emerged from dissatisfaction of mainstream (neoclassical) economics. Mainstream economics mainly assumes agents that optimize their objective functions, such as utility function for consumers and profit for firms. Optimization under budget constraint has a solution if the function is continuous and the prices are positive. However, when the number of goods is large, it is often difficult to obtain the bundles of goods that maximize the utility. This is the question of bounded rationality. Herbert A. Simon once stated in Administrative Behavior that whole contents of management science can be reduced to two lines. The same contentions apply to the economics. Most of economics behaviors except deliberated plans are routines which follows satisficing principle. Evolutionary economics is conceived as an economics of large complex system.

Evolutionary psychology

A different approach is to apply evolutionary psychology principles to economics which is argued to explain problems such as inconsistencies and biases in rational choice theory. A basic economic concept such as utility may be better explained in terms of a set of biological preferences that maximized evolutionary fitness in the ancestral environment but not necessarily in the current one. In other words, the preferences for actions/decisions that promise "utility" (e.g. reaching for a piece of cake) were formed in the ancestral environment because of the adaptive advantages of such decisions (e.g. maximizing calorie intake). Loss aversion may be explained as being rational when living at subsistence level where a reduction of resources may have meant death and it thus may have been rational to place a greater value on losses than on gains.

People are sometimes more cooperative and altruistic than predicted by economic theory which may be explained by mechanisms such as reciprocal altruism and group selection for cooperative behavior. An evolutionary approach may also explain differences between groups such as males being less risk-averse than females since males have more variable reproductive success than females. While unsuccessful risk-seeking may limit reproductive success for both sexes, males may potentially increase their reproductive success much more than females from successful risk-seeking. Frequency-dependent selection may explain why people differ in characteristics such as cooperative behavior with cheating becoming an increasingly less successful strategy as the numbers of cheaters increase.

Economic theory is at present characterized by strong disagreements on which is the correct theory of value, distribution and growth. This also influences the attempts to find evolutionary explanations for modern tastes and preferences. For example an acceptance of the neoclassical theory of value and distribution lies behind the argument that humans have a poor intuitive grasp of the economics of the current environment which is very different from the ancestral environment. The argument is that ancestral environment likely had relatively little trade, division of labor, and capital goods. Technological change was very slow, wealth differences were much smaller, and possession of many available resources were likely zero-sum games where large inequalities were caused by various forms of exploitation. Humans, therefore, may have poor intuitive understanding of the benefits of free trade (causing calls for protectionism), the value of capital goods (making the labor theory of value appealing), and may intuitively undervalue the benefits of technological development. The same acceptance of the neoclassical thesis that demand for labour is a decreasing function of the real wage and that income differences reflect different marginal productivities of individual contributions (in labour or savings) lies behind the argument that persistence of pre-capitalist model of thinking may explain a tendency to see the number of available jobs as a zero-sum game with the total number of jobs being fixed which causes people to not realize that minimum wage laws reduce the number of jobs or to believe that an increased number of jobs in other nations necessarily decreases the number of jobs in their own nation, as well as a tendency to view large income inequality as due to exploitation rather than as due to individual differences in productivity. This, it is accordingly argued, may easily cause poor economic policies, especially since individual voters have few incentives to make the effort of studying societal economics instead of relying on their intuitions since an individual's vote counts for so little and since politicians may be reluctant to take a stand against intuitive views that are incorrect but widely held.

Evolution after Unified Growth Theory

The role of evolutionary forces in the process of economic development over the course of human history has been explored in the past few decades. Oded Galor and Omer Moav advanced the hypothesis that evolutionary forces had a significant role in the transition of the world economy from stagnation to growth, highlighting the persistent effects that historical and prehistorical conditions have had on the evolution of the composition of human characteristics during the development process.

Evolution of predisposition towards child quality

The testable predictions of this evolutionary theory and its underlying mechanisms have been confirmed empirically and quantitatively. Specifically, the genealogical record of half a million people in Quebec during the period 1608-1800, suggests that moderate fecundity, and hence tendency towards investment in child quality, was beneficial for long-run reproductive success. This finding reflect the adverse effect of higher fecundity on marital age of children, their level of education, and the likelihood that they will survive to a reproductive age.

Evolution of time preference

Oded Galor and Omer Ozak examine the evolution of time preference in the course of human history.

Evolution of loss aversion

Oded Galor and Viacheslav Savitskiy explore the evolutionary foundation of the phenomenon of loss aversion. They theorize and confirm empirically that the evolution of loss aversion reflects an evolutionary process in which humans have gradually adapted the climatic shocks and their asymmetric effects on reproductive success in a period in which the available resource was very close to the subsistence consumption. In particular, they establish that individuals and ethnic groups that descended from regions that are characterized by greater climatic volatility tend to be loss-neutral, whereas those originated in regions in which climatic conditions are more spatially correlated, tend to be more loss averse.

Evolution of risk aversion

Oded Galor and Stelios Michalopoulos examine the coevolution of entrepreneurial spirit and the process of long-run economic development. Specifically, they argue that in the early stages of development, risk-tolerant entrepreneurial traits generated an evolutionary advantage, and the rise in the prevalence of this trait amplified the pace of the growth process. However, in advanced stages of development, risk-aversion gained an evolutionary advantage, and contributed to convergence across countries.

Evolutionary economics is part of mainstream economics as well as a heterodox school of economic thought that is inspired by evolutionary biology. Much like mainstream economics, it stresses complex interdependencies, competition, growth, structural change, and resource constraints but differs in the approaches which are used to analyze these phenomena. Some scholars prefer to call their evolutionary theory by a different names. Samuel Bowles named it "evolutionary social science" and Joachim Rennstich called it "evolutionary systems theory".

Evolutionary economics deals with the study of processes that transform economy for firms, institutions, industries, employment, production, trade and growth within, through the actions of diverse agents from experience and interactions, using evolutionary methodology. Evolutionary economics analyzes the unleashing of a process of technological and institutional innovation by generating and testing a diversity of ideas which discover and accumulate more survival value for the costs incurred than competing alternatives. The evidence suggests that it could be adaptive efficiency that defines economic efficiency. Mainstream economic reasoning begins with the postulates of scarcity and rational agents (that is, agents modeled as maximizing their individual welfare), with the "rational choice" for any agent being a straightforward exercise in mathematical optimization. There has been renewed interest in treating economic systems as evolutionary systems in the developing field of Complexity economics.

Evolutionary economics does not take the characteristics of either the objects of choice or of the decision-maker as fixed. Rather, its focus is on the non-equilibrium processes that transform the economy from within and their implications. The processes in turn emerge from actions of diverse agents with bounded rationality who may learn from experience and interactions and whose differences contribute to the change. The subject draws more recently on evolutionary game theory and on the evolutionary methodology of Charles Darwin and the non-equilibrium economics principle of circular and cumulative causation. It is naturalistic in purging earlier notions of economic change as teleological or necessarily improving the human condition.

A different approach is to apply evolutionary psychology principles to economics which is argued to explain problems such as inconsistencies and biases in rational choice theory. Basic economic concepts such as utility may be better viewed as due to preferences that maximized evolutionary fitness in the ancestral environment but not necessarily in the current one.

Predecessors

Marx based his theory of economic development on the premise of developing economic systems; specifically, over the course of history superior economic systems would replace inferior ones. Inferior systems were beset by internal contradictions and inefficiencies that make them impossible to survive over the long term. In Marx's scheme, feudalism was replaced by capitalism, which would eventually be superseded by socialism.

Veblen (1898)

Thorstein Veblen (1898) coined the term "evolutionary economics" in English. He began his career in the midst of this period of intellectual ferment, and as a young scholar came into direct contact with some of the leading figures of the various movements that were to shape the style and substance of social sciences into the next century and beyond. Veblen saw the need for taking account of cultural variation in his approach; no universal "human nature" could possibly be invoked to explain the variety of norms and behaviors that the new science of anthropology showed to be the rule, rather than the exception. He emphasized the conflict between "industrial" and "pecuniary" or ceremonial values and this Veblenian dichotomy was interpreted in the hands of later writers as the "ceremonial/instrumental dichotomy" (Hodgson 2004);

Later development

A seminal article by Armen Alchian (1950) argued for adaptive success of firms faced with uncertainty and incomplete information replacing profit maximization as an appropriate modeling assumption. Milton Friedman proposed that markets act as major selection vehicles. As firms compete, unsuccessful rivals fail to capture an appropriate market share, go bankrupt and have to exit. The variety of competing firms is both in their products and practices, that are matched against markets. Both products and practices are determined by routines that firms use: standardized patterns of actions implemented constantly. By imitating these routines, firms propagate them and thus establish inheritance of successful practices. Kenneth Boulding was one of the advocates of the evolutionary methods in social science, as is evident from Kenneth Boulding's Evolutionary Perspective. Kenneth Arrow, Ronald Coase and Douglass North are some of the Bank of Sweden Prize in Economic Sciences in Memory of Alfred Nobel winners who are known for their sympathy to the field.

More narrowly the works Jack Downie and Edith Penrose offer many insights for those thinking about evolution at the level of the firm in an industry.

Nelson and Winter (1982) and after

Richard R. Nelson and Sidney G. Winter's book An Evolutionary Theory of Economic Change (1982, Paperback 1985) was a real seminal work that marked a renaissance of evolutionary economics. It lead to the dissemination of the evolutionary ideas among wide strands of economists and was followed by foundations of International Joseph A. Schumpeter Society, European Association for Evolutionary Political Economy, Japan Association for Evolutionary Economics, and Korean Society for Innovation Management and Economics.

Nelson and Winter have focused mostly on the issue of changes in technology and routines, suggesting a framework for their analysis. Evolution and change must be distinguished. Prices and quantities constantly change but it is not an evolution. For an evolution takes place, there must be something that evolves. Their approach can be compared and contrasted with the population ecology or organizational ecology approach in sociology: see Douma & Schreuder (2013, chapter 11). More recently, Nelson, Dosi, Pyka, Malerba, Winter and other scholars have been proposing an update of the state-of-art in evolutionary economics.

Evolution and change must be distinguished. Prices, quantities and GDPs constantly change through time but they are not evolution. Pier P. Saviotti pointed out as key concepts of evolution three ideas: variation, selection, and reproduction. The concept of reproduction is often replaced by replication or retention. Retention is preferred in evolutionary organization theory. Other related concepts are fitness, adaptation, population, interactions, and environment. Each item is related to selection, learning, population dynamics, economic transactions, and boundary conditions. Nelson and Winter raised two major examples of evolving entities: technologies and organizational routines. Yoshinori Shiozawa listed four entities that evolve: economic behaviors, commodities, technologies, and institutions. Then, mechanisms that provide selection, generate variation and establish self-replication, must be identified. A general theory of this evolutionary process has been proposed by Kurt Dopfer, John Foster and Jason Potts as the micro meso macro framework.

Evolutionary economics had developed and ramified into various fields or topics. They include technology and economic growth, institutional economics, organization studies, innovation study, management, and policy, and criticism of mainstream economics.

Economic processes, as part of life processes, are intrinsically evolutionary. From the evolutionary equation that describe life processes, an analytical formula on the main factors of economic processes, such as fixed cost and variable cost, can be derived. The economic return, or competitiveness, of economic entities of different characteristics under different kinds of environment can be calculated.

In recent years, evolutionary models have been used to assist decision making in applied settings and find solutions to problems such as optimal product design and service portfolio diversification.

Why does evolution matter in economics

Evolutionary economics emerged from dissatisfaction of mainstream (neoclassical) economics. Mainstream economics mainly assumes agents that optimize their objective functions, such as utility function for consumers and profit for firms. Optimization under budget constraint has a solution if the function is continuous and the prices are positive. However, when the number of goods is large, it is often difficult to obtain the bundles of goods that maximize the utility. This is the question of bounded rationality. Herbert A. Simon once stated in Administrative Behavior that whole contents of management science can be reduced to two lines. The same contentions apply to the economics. Most of economics behaviors except deliberated plans are routines which follows satisficing principle. Evolutionary economics is conceived as an economics of large complex system.

Evolutionary psychology

A different approach is to apply evolutionary psychology principles to economics which is argued to explain problems such as inconsistencies and biases in rational choice theory. A basic economic concept such as utility may be better explained in terms of a set of biological preferences that maximized evolutionary fitness in the ancestral environment but not necessarily in the current one. In other words, the preferences for actions/decisions that promise "utility" (e.g. reaching for a piece of cake) were formed in the ancestral environment because of the adaptive advantages of such decisions (e.g. maximizing calorie intake). Loss aversion may be explained as being rational when living at subsistence level where a reduction of resources may have meant death and it thus may have been rational to place a greater value on losses than on gains.

People are sometimes more cooperative and altruistic than predicted by economic theory which may be explained by mechanisms such as reciprocal altruism and group selection for cooperative behavior. An evolutionary approach may also explain differences between groups such as males being less risk-averse than females since males have more variable reproductive success than females. While unsuccessful risk-seeking may limit reproductive success for both sexes, males may potentially increase their reproductive success much more than females from successful risk-seeking. Frequency-dependent selection may explain why people differ in characteristics such as cooperative behavior with cheating becoming an increasingly less successful strategy as the numbers of cheaters increase.

Economic theory is at present characterized by strong disagreements on which is the correct theory of value, distribution and growth. This also influences the attempts to find evolutionary explanations for modern tastes and preferences. For example an acceptance of the neoclassical theory of value and distribution lies behind the argument that humans have a poor intuitive grasp of the economics of the current environment which is very different from the ancestral environment. The argument is that ancestral environment likely had relatively little trade, division of labor, and capital goods. Technological change was very slow, wealth differences were much smaller, and possession of many available resources were likely zero-sum games where large inequalities were caused by various forms of exploitation. Humans, therefore, may have poor intuitive understanding of the benefits of free trade (causing calls for protectionism), the value of capital goods (making the labor theory of value appealing), and may intuitively undervalue the benefits of technological development. The same acceptance of the neoclassical thesis that demand for labour is a decreasing function of the real wage and that income differences reflect different marginal productivities of individual contributions (in labour or savings) lies behind the argument that persistence of pre-capitalist model of thinking may explain a tendency to see the number of available jobs as a zero-sum game with the total number of jobs being fixed which causes people to not realize that minimum wage laws reduce the number of jobs or to believe that an increased number of jobs in other nations necessarily decreases the number of jobs in their own nation, as well as a tendency to view large income inequality as due to exploitation rather than as due to individual differences in productivity. This, it is accordingly argued, may easily cause poor economic policies, especially since individual voters have few incentives to make the effort of studying societal economics instead of relying on their intuitions since an individual's vote counts for so little and since politicians may be reluctant to take a stand against intuitive views that are incorrect but widely held.

Evolution after Unified Growth Theory

The role of evolutionary forces in the process of economic development over the course of human history has been explored in the past few decades. Oded Galor and Omer Moav advanced the hypothesis that evolutionary forces had a significant role in the transition of the world economy from stagnation to growth, highlighting the persistent effects that historical and prehistorical conditions have had on the evolution of the composition of human characteristics during the development process.

Evolution of predisposition towards child quality

The testable predictions of this evolutionary theory and its underlying mechanisms have been confirmed empirically and quantitatively. Specifically, the genealogical record of half a million people in Quebec during the period 1608-1800, suggests that moderate fecundity, and hence tendency towards investment in child quality, was beneficial for long-run reproductive success. This finding reflect the adverse effect of higher fecundity on marital age of children, their level of education, and the likelihood that they will survive to a reproductive age.

Evolution of time preference

Oded Galor and Omer Ozak examine the evolution of time preference in the course of human history.

Evolution of loss aversion

Oded Galor and Viacheslav Savitskiy explore the evolutionary foundation of the phenomenon of loss aversion. They theorize and confirm empirically that the evolution of loss aversion reflects an evolutionary process in which humans have gradually adapted the climatic shocks and their asymmetric effects on reproductive success in a period in which the available resource was very close to the subsistence consumption. In particular, they establish that individuals and ethnic groups that descended from regions that are characterized by greater climatic volatility tend to be loss-neutral, whereas those originated in regions in which climatic conditions are more spatially correlated, tend to be more loss averse.

Evolution of risk aversion

Oded Galor and Stelios Michalopoulos examine the coevolution of entrepreneurial spirit and the process of long-run economic development. Specifically, they argue that in the early stages of development, risk-tolerant entrepreneurial traits generated an evolutionary advantage, and the rise in the prevalence of this trait amplified the pace of the growth process. However, in advanced stages of development, risk-aversion gained an evolutionary advantage, and contributed to convergence across countries.

Modern Times (film)

From Wikipedia, the free encyclopedia
 
Modern Times
Modern Times poster.jpg
Directed byCharlie Chaplin
Written byCharlie Chaplin
Produced byCharlie Chaplin
StarringCharlie Chaplin
Paulette Goddard
Henry Bergman
Tiny Sandford
Chester Conklin
CinematographyIra H. Morgan
Roland Totheroh
Edited byCharlie Chaplin
Willard Nico
Music byCharlie Chaplin
Distributed byUnited Artists
Release date
February 5, 1936
Running time
87 minutes
CountryUnited States
LanguageEnglish
Budget$1.5 million
Box office$1.8 million (U.S. and Canada rentals)

Modern Times is a 1936 American part-talkie satirical romantic black comedy film written and directed by Charlie Chaplin in which his iconic Little Tramp character struggles to survive in the modern, industrialized world. The film is a commentary on the desperate employment and financial conditions many people faced during the Great Depression — conditions created, in Chaplin's view, by the efficiencies of modern industrialization. The movie stars Chaplin, Paulette Goddard, Henry Bergman, Tiny Sandford and Chester Conklin. It is the last time that Chaplin portrayed the Tramp character and the first time Chaplin's voice is heard on film.

In 1989, Modern Times was one of the first 25 films selected by the Library of Congress for preservation in the United States National Film Registry for being "culturally, historically, or aesthetically significant". In 2003, it was screened "out of competition" at the Cannes Film Festival.

Plot

The Tramp working on the giant machine in the film's most famous scene
 
Charlie Chaplin as The Tramp

The Tramp works on an assembly line, where he suffers greatly due to the stress and pace of the repetitive work. He eventually suffers a nervous breakdown and runs amok, getting stuck within a machine and throwing the factory into chaos; he is then sent to the hospital. Following his recovery, the now unemployed Tramp is mistakenly arrested in a Communist demonstration. In jail, he accidentally ingests smuggled cocaine, and in his subsequent delirium, he avoids being put back in his cell. When he returns, he stumbles upon a jailbreak and knocks the convicts unconscious for which he is hailed as a hero and given special treatment. When he is informed that he will soon be released due to his heroic actions, he argues unsuccessfully that he prefers life in jail.

Upon release, he applies for a new job with a shipbuilder but leaves after causing an accident. Soon after, he runs into a orphaned girl, Ellen (Paulette Goddard), who is fleeing the police after stealing a loaf of bread. Determined to go back to jail and to save her from arrest, the Tramp tells the police that he is the thief and asks to be arrested, but a witness reveals his deception and he is freed. He then eats an enormous amount of food at a cafeteria without paying to get arrested, and once again encounters Ellen in a paddy wagon after he is put in it. It soon crashes however, and she convinces him to escape with her. The Tramp then gets a job as a night watchman at a department store, and encounters three burglars led by "Big Bill," a fellow worker from the factory, who explains that they are hungry and desperate. After sharing drinks with them, he wakes up the next morning during opening hours and is arrested once again for failing to call the police on the burglars and for sleeping in the store’s clothes on a desk, shocking a customer and the storekeeper.

Days later, Ellen takes him to a run-down shack to live in. The next morning, he reads about an old factory’s re-opening and lands a job as a mechanic's assistant. The other workers then suddenly decide to go on strike, and tell the Tramp to leave with them. Outside the factory, he accidentally launches a brick at a policeman and is arrested again.

He is released two weeks later, and learns that Ellen is now a café dancer. She gets him a job as a singer and waiter, but he goes about his duties clumsily. During his floor show, he loses his cuffs, which bear the lyrics to his song, but he rescues the act by improvising the lyrics using gibberish and by pantomiming. When police arrive to arrest Ellen for her earlier escape, the two are forced to flee again, and Ellen despairs that their struggles are all pointless, but the Tramp reassures her. At a bright dawn, they walk down the road towards an uncertain but hopeful future.

Cast

Production

Paulette Goddard, the heroine of Modern Times

During a European tour promoting City Lights, Chaplin got the inspiration for Modern Times from both the lamentable conditions of the continent through the Great Depression, along with a conversation with Mahatma Gandhi in which they discussed modern technology. Chaplin did not understand why Gandhi generally opposed it, though he granted that "machinery with only consideration of profit" had put people out of work and ruined lives.

Chaplin began preparing the film in 1934 as his first "talkie", and went as far as writing a dialogue script and experimenting with some sound scenes. However, he soon abandoned these attempts and reverted to a silent format with synchronized sound effects and sparse dialogue. The dialogue experiments confirmed his long-standing conviction that the universal appeal of his "Little Tramp" character would be lost if the character ever spoke on screen. Most of the film was shot at "silent speed", 18 frames per second, which when projected at "sound speed", 24 frames per second, made the slapstick action appear even more frenetic. The duration of filming was long for the time, beginning on October 11, 1934, and ending on August 30, 1935.

Chaplin biographer Jeffrey Vance has noted, “Chaplin recognized that Modern Times was the valedictory for the Tramp and deliberately included many gags and sequences as a loving farewell to the character and an homage to the visual comedy tradition."

This film also famously uses matte painting in the harrowing skating scene where Charlie skates blindfolded, not realizing he's constantly near the edge and very likely could fall down. The illusory drop has been matte-painted, and Chaplin was never in actual danger while filming this scene — in reality, he skated on a plain floor, with a ledge for him to discern when to stop. This can be observed in the fact that, at one moment, Chaplin's back wheel briefly disappeared behind the painting. This most likely escaped the eyes of Chaplin, which could be the reason he left it in.

The reference to drugs seen in the prison sequence is somewhat daring for the time (since the production code, established in 1930, forbade the depiction of illegal drug use in films); Chaplin had made drug references before in one of his most famous short films, Easy Street, released in 1917.

Music

According to the official documents, the music score was composed by Chaplin himself, and arranged with the assistance of Alfred Newman, who had collaborated with Chaplin on the music score of his previous film City Lights. Newman and Chaplin had a falling out near the end of the Modern Times soundtrack recording sessions, leading to Newman's angry departure.

The romance theme was later given lyrics, and became the pop standard "Smile", first recorded by Nat King Cole. A cover of this song by Jimmy Durante was also used in the trailer for the 2019 film Joker, in which the lead character also watches scenes from a showing of Modern Times after sneaking into a movie theatre.

Modern Times was the first film where Chaplin's voice is heard as he performs Léo Daniderff's comical song "Je cherche après Titine". Chaplin's version is also known as "The Nonsense Song", as his character sings it in gibberish. The lyrics are nonsensical but appear to contain words from French and Italian; the use of deliberately half-intelligible wording for comic effect points the way towards Adenoid Hynkel's speeches in The Great Dictator.

According to film composer David Raksin, he wrote the music as a young man wanting to make a name for himself. Chaplin would sit, often in the washroom, humming tunes and telling Raksin to "take this down". Raksin's job was to turn the humming into a score and create timings and synchronization that fit the situations. Chaplin was a violinist and had some musical knowledge, but he was not an orchestrator and was unfamiliar with synchronization. Along with Edward B. Powell, Raksin did receive screen credit for the music arrangements. Raksin later created scores for films including Laura and The Day After.

Reception

World premiere of Modern Times (1936), New York

Modern Times is often hailed as one of Chaplin's greatest achievements, and it remains one of his most popular films. It holds an approval rating of 98% on Rotten Tomatoes based on 108 reviews, with a weighted average of 9.4/10. The website's critical consensus reads, "A slapstick skewering of industrialized America, Modern Times is as politically incisive as it is laugh-out-loud hilarious." Metacritic reports an aggregated score of 96/100 based on 4 critics, indicating "universal acclaim".

Naming it the Best Film of the 30s Decade, Flickside writes, "Chaplin's Modern Times is a thoughtful critique on the anxieties of modernization dealt with pathos and humour." Contemporary reviews were very positive. Frank Nugent of The New York Times wrote, "'Modern Times' has still the same old Charlie, the lovable little fellow whose hands and feet and prankish eyebrows can beat an irresistible tattoo upon an audience's funnybone or hold it still, taut beneath the spell of human tragedy ... Time has not changed his genius." Variety called it "grand fun and sound entertainment." Film Daily wrote, "Charlie Chaplin has scored one of his greatest triumphs." John Mosher of The New Yorker wrote that Chaplin "manufactures some superb laughs ... In all, it's a rambling sketch, a little at loose ends at times, sometimes rather slight in effect, and now and then secure in its rich, old-fashioned funniness." Burns Mantle called the film "another hilariously rowdy success."

Writing for The Spectator in 1936, Graham Greene strongly praised the film, noting that although there had always been a bit of a dated feel to his previous works, Chaplin "has at last definitely entered the contemporary scene". Greene noted that whereas prior Chaplin films had featured "fair and featureless" heroines, the casting of Paulette Goddard suggested that his female characters might be presented with more personality than previously. He also voiced concern that the film would be considered to be a Communist film when in reality Chaplin's message was predominantly apolitical. As Greene explains, "[Chaplin] presents, he doesn't offer political solutions."

French philosophers Jean-Paul Sartre, Simone de Beauvoir and Maurice Merleau-Ponty named their journal, Les Temps modernes, after it.

Modern Times earned $1.8 million in North American theatrical rentals during its release, becoming one of the top-grossing films of 1936. It was the most popular film at the British box office in 1935–36.

The iconic depiction of Chaplin working frantically to keep up with an assembly line inspired later comedy routines including Disney's Der Fuehrer's Face (Donald Duck alternately assembling artillery shells and saluting portraits of Adolf Hitler) and an episode of I Love Lucy titled "Job Switching" (Lucy and Ethel trying to keep up with an ever-increasing volume of chocolate candies, eventually stuffing them in their mouths, hats, and blouses). The opening of a fantasy sequence in the film, in which the unemployed factory worker trips over a footstool upon entering the living room of his "dream home" with the Gamin, inspired a similar opening to The Dick Van Dyke Show.

This was Chaplin's first overtly political-themed film, and its unflattering portrayal of industrial society generated controversy in some quarters upon its initial release. Writing in The Liberal News, the official magazine of the British Liberal Party, in October 1936, Willoughby Dewar observed Modern Times "should be seen by every Young Liberal. It is, among other things, a piece of first-class Liberal propaganda." Nazi Germany propaganda minister Joseph Goebbels banned the film from being shown in the regime because of its alleged advocacy of communism.

The film exhibits slight similarities to a lesser known 1931 French film directed by René Clair entitled À nous la liberté (Liberty for Us) – the assembly line sequence is an instance in that both films depict it, but in different ways. The German film company Tobis Film, hungry for cash, sued Chaplin following the film's release to no avail. They sued again after World War II (considered revenge for Chaplin's anti-Nazi statements in The Great Dictator). This time, they settled with Chaplin out of court. Clair, a friend and huge admirer of Chaplin who was flattered that the film icon would depict a similar subject, was deeply embarrassed that Tobis Film would sue Chaplin, and was never part of the case.

The film did attract criticism for being almost completely silent, despite the movie industry having long since embraced the talking picture. Chaplin famously feared that the mystery and romanticism of the Tramp character would be ruined if he spoke, and feared it would alienate his fans in non-English speaking territories. His future films, however, would be fully fledged "talkies" – although without the character of the Little Tramp.

Chaplin biographer Jeffrey Vance has written of the reception and legacy of this classic comedy,

Modern Times is perhaps more meaningful now than at any time since its first release. The twentieth-century theme of the film, farsighted for its time—the struggle to eschew alienation and preserve humanity in a modern, mechanized world—profoundly reflects issues facing the twenty-first century. The Tramp's travails in Modern Times and the comedic mayhem that ensues should provide strength and comfort to all who feel like helpless cogs in a world beyond control. Through its universal themes and comic inventiveness, Modern Times remains one of Chaplin's greatest and most enduring works. Perhaps more important, it is the Tramp's finale, a tribute to Chaplin's most beloved character and the silent-film era he commanded for a generation.

The film is recognized by American Film Institute in these lists:

The Village Voice ranked Modern Times at No. 62 in its Top 250 "Best Films of the Century" list in 1999, based on a poll of critics. In January 2002, the film was voted at No. 58 on the list of the "Top 100 Essential Films of All Time" by the National Society of Film Critics. The film was voted at No. 74 on the list of "100 Greatest Films" by the prominent French magazine Cahiers du cinéma in 2008. In the 2012 Sight & Sound polls, it was ranked the 63rd-greatest film ever made in the critics' poll and 20th in the directors' poll. In the earlier 2002 version of the list the film ranked 35th among critics. In 2015, Modern Times ranked 67th on BBC's "100 Greatest American Films" list, voted on by film critics from around the world. The film was voted at No. 12 on the list of The 100 greatest comedies of all time by a poll of 253 film critics from 52 countries conducted by the BBC in 2017. In 2021 the film ranked 49th on Time Out magazine's list of The 100 best movies of all time.

Restoration

A digitally restored version of the film was released in 2003. The French company MK2 searched the world for good copies of the original footage, cut them together and processed each of the 126,000 frames, removing scratches and dust, and ensuring optimal image stability and balanced black and white tone levels. The restored version was first shown at the Cannes Film Festival in 2003.

Inequality (mathematics)

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