Decision-making

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In psychology, decision-making is regarded as the cognitive process resulting in the selection of a belief or a course of action among several alternative possibilities. Every decision-making process produces a final choice, which may or may not prompt action. Decision-making is the process of identifying and choosing alternatives based on the values, preferences and beliefs of the decision-maker.

Overview

Decision-making can be regarded as a problem-solving activity terminated by a solution deemed to be optimal, or at least satisfactory. It is therefore a process which can be more or less rational or irrational and can be based on explicit or tacit knowledge and beliefs.

Human performance has been the subject of active research from several perspectives:

A major part of decision-making involves the analysis of a finite set of alternatives described in terms of evaluative criteria. Then the task might be to rank these alternatives in terms of how attractive they are to the decision-maker(s) when all the criteria are considered simultaneously. Another task might be to find the best alternative or to determine the relative total priority of each alternative (for instance, if alternatives represent projects competing for funds) when all the criteria are considered simultaneously. Solving such problems is the focus of multiple-criteria decision analysis (MCDA). This area of decision-making, although very old, has attracted the interest of many researchers and practitioners and is still highly debated as there are many MCDA methods which may yield very different results when they are applied on exactly the same data.[2] This leads to the formulation of a decision-making paradox.

Logical decision-making is an important part of all science-based professions, where specialists apply their knowledge in a given area to make informed decisions. For example, medical decision-making often involves a diagnosis and the selection of appropriate treatment. But naturalistic decision-making research shows that in situations with higher time pressure, higher stakes, or increased ambiguities, experts may use intuitive decision-making rather than structured approaches. They may follow a recognition primed decision that fits their experience and arrive at a course of action without weighing alternatives.

The decision-maker's environment can play a part in the decision-making process. For example, environmental complexity is a factor that influences cognitive function.[3] A complex environment is an environment with a large number of different possible states which come and go over time.[4] Studies done at the University of Colorado have shown that more complex environments correlate with higher cognitive function, which means that a decision can be influenced by the location. One experiment measured complexity in a room by the number of small objects and appliances present; a simple room had less of those things. Cognitive function was greatly affected by the higher measure of environmental complexity making it easier to think about the situation and make a better decision.[3]

Research about decision-making is also published under the label problem solving, in particular in European psychological research.[5]

Problem analysis

It is important to differentiate between problem analysis and decision-making. Traditionally, it is argued that problem analysis must be done first, so that the information gathered in that process may be used towards decision-making.[6]

Characteristics of problem analysis
Characteristics of decision-making

Analysis paralysis

Analysis paralysis is the state of over-analyzing (or over-thinking) a situation so that a decision or action is never taken, in effect paralyzing the outcome.

Information overload

Information overload is "a gap between the volume of information and the tools we have to assimilate" it.[9] Excessive information affects problem processing and tasking, which affects decision-making.[10] Crystal C. Hall and colleagues described an "illusion of knowledge", which means that as individuals encounter too much knowledge it can interfere with their ability to make rational decisions.[11]

Post-decision analysis

Evaluation and analysis of past decisions is complementary to decision-making. See also Mental accounting and Postmortem documentation.

Decision-making techniques

Decision-making techniques can be separated into two broad categories: group decision-making techniques and individual decision-making techniques. Individual decision-making techniques can also often be applied by a group.

Group

Individual

Steps

GOFER

In the 1980s, psychologist Leon Mann and colleagues developed a decision-making process called GOFER, which they taught to adolescents, as summarized in the book Teaching Decision Making To Adolescents.[13] The process was based on extensive earlier research conducted with psychologist Irving Janis.[14] GOFER is an acronym for five decision-making steps:

  1. Goals: Survey values and objectives.
  2. Options: Consider a wide range of alternative actions.
  3. Facts: Search for information.
  4. Effects: Weigh the positive and negative consequences of the options.
  5. Review: Plan how to implement the options.

DECIDE

In 2008, Kristina Guo published the DECIDE model of decision-making, which has six parts:[15]

  1. Define the problem
  2. Establish or Enumerate all the criteria (constraints)
  3. Consider or Collect all the alternatives
  4. Identify the best alternative
  5. Develop and implement a plan of action
  6. Evaluate and monitor the solution and examine feedback when necessary

Other

In 2007, Pam Brown of Singleton Hospital in Swansea, Wales, divided the decision-making process into seven steps:[16]

  1. Outline your goal and outcome.
  2. Gather data.
  3. Develop alternatives (i.e., brainstorming).
  4. List pros and cons of each alternative.
  5. Make the decision.
  6. Immediately take action to implement it.
  7. Learn from and reflect on the decision.

In 2009, professor John Pijanowski described how the Arkansas Program, an ethics curriculum at the University of Arkansas, used eight stages of moral decision-making based on the work of James Rest:[17]:6

  1. Establishing community: Create and nurture the relationships, norms, and procedures that will influence how problems are understood and communicated. This stage takes place prior to and during a moral dilemma.
  2. Perception: Recognize that a problem exists.
  3. Interpretation: Identify competing explanations for the problem, and evaluate the drivers behind those interpretations.
  4. Judgment: Sift through various possible actions or responses and determine which is more justifiable.
  5. Motivation: Examine the competing commitments which may distract from a more moral course of action and then prioritize and commit to moral values over other personal, institutional or social values.
  6. Action: Follow through with action that supports the more justified decision.
  7. Reflection in action.
  8. Reflection on action.

Group stages

According to B. Aubrey Fisher, there are four stages or phases that should be involved in all group decision-making:[18]

It is said that establishing critical norms in a group improves the quality of decisions, while the majority of opinions (called consensus norms) do not.[19]

Rational and irrational

In economics, it is thought that if humans are rational and free to make their own decisions, then they would behave according to rational choice theory.[20]:368–370 Rational choice theory says that a person consistently makes choices that lead to the best situation for himself or herself, taking into account all available considerations including costs and benefits; the rationality of these considerations is from the point of view of the person himself, so a decision is not irrational just because someone else finds it questionable.

In reality, however, there are some factors that affect decision-making abilities and cause people to make irrational decisions  for example, to make contradictory choices when faced with the same problem framed in two different ways (see also Allais paradox).

One of the most prominent theories of decision making is subjective expected utility (SEU) theory, which describes the rational behavior of the decision maker.[21] The decision maker assesses different alternatives by their utilities and the subjective probability of occurrence.[21]

Cognitive and personal biases

Biases usually affect decision-making processes. Here is a list of commonly debated biases in judgment and decision-making:

Cognitive limitations in groups

In groups, people generate decisions through active and complex processes. One method consists of three steps: initial preferences are expressed by members; the members of the group then gather and share information concerning those preferences; finally, the members combine their views and make a single choice about how to face the problem. Although these steps are relatively ordinary, judgements are often distorted by cognitive and motivational biases, include "sins of commission", "sins of omission", and "sins of imprecision".[29]

Cognitive styles

Optimizing vs. satisficing

Herbert A. Simon coined the phrase "bounded rationality" to express the idea that human decision-making is limited by available information, available time and the mind's information-processing ability. Further psychological research has identified individual differences between two cognitive styles: maximizers try to make an optimal decision, whereas satisficers simply try to find a solution that is "good enough". Maximizers tend to take longer making decisions due to the need to maximize performance across all variables and make tradeoffs carefully; they also tend to more often regret their decisions (perhaps because they are more able than satisficers to recognise that a decision turned out to be sub-optimal).[30]

Intuitive vs. rational

The psychologist Daniel Kahneman, adopting terms originally proposed by the psychologists Keith Stanovich and Richard West, has theorized that a person's decision-making is the result of an interplay between two kinds of cognitive processes: an automatic intuitive system (called "System 1") and an effortful rational system (called "System 2"). System 1 is a bottom-up, fast, and implicit system of decision-making, while system 2 is a top-down, slow, and explicit system of decision-making.[31] System 1 includes simple heuristics in judgment and decision-making such as the affect heuristic, the availability heuristic, the familiarity heuristic, and the representativeness heuristic.

Combinatorial vs. positional

Styles and methods of decision-making were elaborated by Aron Katsenelinboigen, the founder of predispositioning theory. In his analysis on styles and methods, Katsenelinboigen referred to the game of chess, saying that "chess does disclose various methods of operation, notably the creation of predisposition-methods which may be applicable to other, more complex systems."[32]:5

Katsenelinboigen states that apart from the methods (reactive and selective) and sub-methods (randomization, predispositioning, programming), there are two major styles: positional and combinational. Both styles are utilized in the game of chess. According to Katsenelinboigen, the two styles reflect two basic approaches to uncertainty: deterministic (combinational style) and indeterministic (positional style). Katsenelinboigen's definition of the two styles are the following.

The combinational style is characterized by:

In defining the combinational style in chess, Katsenelinboigen wrote: "The combinational style features a clearly formulated limited objective, namely the capture of material (the main constituent element of a chess position). The objective is implemented via a well-defined, and in some cases, unique sequence of moves aimed at reaching the set goal. As a rule, this sequence leaves no options for the opponent. Finding a combinational objective allows the player to focus all his energies on efficient execution, that is, the player's analysis may be limited to the pieces directly partaking in the combination. This approach is the crux of the combination and the combinational style of play.[32]:57

The positional style is distinguished by:

"Unlike the combinational player, the positional player is occupied, first and foremost, with the elaboration of the position that will allow him to develop in the unknown future. In playing the positional style, the player must evaluate relational and material parameters as independent variables. ... The positional style gives the player the opportunity to develop a position until it becomes pregnant with a combination. However, the combination is not the final goal of the positional player  it helps him to achieve the desirable, keeping in mind a predisposition for the future development. The pyrrhic victory is the best example of one's inability to think positionally."[33]

The positional style serves to:

Influence of Myers-Briggs type

According to Isabel Briggs Myers, a person's decision-making process depends to a significant degree on their cognitive style.[34] Myers developed a set of four bi-polar dimensions, called the Myers-Briggs Type Indicator (MBTI). The terminal points on these dimensions are: thinking and feeling; extroversion and introversion; judgment and perception; and sensing and intuition. She claimed that a person's decision-making style correlates well with how they score on these four dimensions. For example, someone who scored near the thinking, extroversion, sensing, and judgment ends of the dimensions would tend to have a logical, analytical, objective, critical, and empirical decision-making style. However, some psychologists say that the MBTI lacks reliability and validity and is poorly constructed.[35][36]

Other studies suggest that these national or cross-cultural differences in decision-making exist across entire societies. For example, Maris Martinsons has found that American, Japanese and Chinese business leaders each exhibit a distinctive national style of decision-making.[37]

Neuroscience

Decision-making is a region of intense study in the fields of systems neuroscience, and cognitive neuroscience. Several brain structures, including the anterior cingulate cortex (ACC), orbitofrontal cortex and the overlapping ventromedial prefrontal cortex are believed to be involved in decision-making processes. A neuroimaging study[38] found distinctive patterns of neural activation in these regions depending on whether decisions were made on the basis of perceived personal volition or following directions from someone else. Patients with damage to the ventromedial prefrontal cortex have difficulty making advantageous decisions.[39]

A common laboratory paradigm for studying neural decision-making is the two-alternative forced choice task (2AFC), in which a subject has to choose between two alternatives within a certain time. A study of a two-alternative forced choice task involving rhesus monkeys found that neurons in the parietal cortex not only represent the formation of a decision[40] but also signal the degree of certainty (or "confidence") associated with the decision.[41] Another recent study found that lesions to the ACC in the macaque resulted in impaired decision-making in the long run of reinforcement guided tasks suggesting that the ACC may be involved in evaluating past reinforcement information and guiding future action.[42] A 2012 study found that rats and humans can optimally accumulate incoming sensory evidence, to make statistically optimal decisions.[43]

Emotion appears able to aid the decision-making process. Decision-making often occurs in the face of uncertainty about whether one's choices will lead to benefit or harm (see also Risk). The somatic-marker hypothesis is a neurobiological theory of how decisions are made in the face of uncertain outcome. This theory holds that such decisions are aided by emotions, in the form of bodily states, that are elicited during the deliberation of future consequences and that mark different options for behavior as being advantageous or disadvantageous. This process involves an interplay between neural systems that elicit emotional/bodily states and neural systems that map these emotional/bodily states.[44] A recent lesion mapping study of 152 patients with focal brain lesions conducted by Aron K. Barbey and colleagues provided evidence to help discover the neural mechanisms of emotional intelligence.[45][46][47]

Although it is unclear whether the studies generalize to all processing, subconscious processes have been implicated in the initiation of conscious volitional movements. See the Neuroscience of free will.

In adolescents vs. adults

During their adolescent years, teens are known for their high-risk behaviors and rash decisions. Recent research has shown that there are differences in cognitive processes between adolescents and adults during decision-making. Researchers have concluded that differences in decision-making are not due to a lack of logic or reasoning, but more due to the immaturity of psychosocial capacities that influence decision-making. Examples of their undeveloped capacities which influence decision-making would be impulse control, emotion regulation, delayed gratification and resistance to peer pressure. In the past, researchers have thought that adolescent behavior was simply due to incompetency regarding decision-making. Currently, researchers have concluded that adults and adolescents are both competent decision-makers, not just adults. However, adolescents' competent decision-making skills decrease when psychosocial capacities become present.

Recent research has shown that risk-taking behaviors in adolescents may be the product of interactions between the socioemotional brain network and its cognitive-control network. The socioemotional part of the brain processes social and emotional stimuli and has been shown to be important in reward processing. The cognitive-control network assists in planning and self-regulation. Both of these sections of the brain change over the course of puberty. However, the socioemotional network changes quickly and abruptly, while the cognitive-control network changes more gradually. Because of this difference in change, the cognitive-control network, which usually regulates the socioemotional network, struggles to control the socioemotional network when psychosocial capacities are present.

When adolescents are exposed to social and emotional stimuli, their socioemotional network is activated as well as areas of the brain involved in reward processing. Because teens often gain a sense of reward from risk-taking behaviors, their repetition becomes ever more probable due to the reward experienced. In this, the process mirrors addiction. Teens can become addicted to risky behavior because they are in a high state of arousal and are rewarded for it not only by their own internal functions but also by their peers around them.

Adults are generally better able to control their risk-taking because their cognitive-control system has matured enough to the point where it can control the socioemotional network, even in the context of high arousal or when psychosocial capacities are present. Also, adults are less likely to find themselves in situations that push them to do risky things. For example, teens are more likely to be around peers who peer pressure them into doing things, while adults are not as exposed to this sort of social setting.[48][49]

A recent study suggests that adolescents have difficulties adequately adjusting beliefs in response to bad news (such as reading that smoking poses a greater risk to health than they thought), but do not differ from adults in their ability to alter beliefs in response to good news.[50] This creates biased beliefs, which may lead to greater risk taking.[51]

See also

References

  1. Kahneman, Daniel; Tversky, Amos, eds. (2000). Choices, values, and frames. New York; Cambridge, UK: Russell Sage Foundation; Cambridge University Press. p. 211. ISBN 0521621720. OCLC 42934579.
  2. Triantaphyllou, Evangelos (2000). Multi-criteria decision making methods: a comparative study. Applied optimization. Dordrecht, Netherlands: Kluwer Academic Publishers. p. 320. ISBN 0792366077. doi:10.1007/978-1-4757-3157-6.
  3. 1 2 Davidson, Alice Ware; Bar-Yam, Yaneer (2006) [2000]. "Environmental complexity: information for human–environment well-being" (PDF). In Bar-Yam, Yaneer; Minai, Ali. Unifying themes in complex systems. Berlin; New York: Springer. pp. 157–168. ISBN 9783540358640. doi:10.1007/978-3-540-35866-4_16.
  4. Godfrey-Smith, Peter (2001). "Environmental complexity and the evolution of cognition" (PDF). In Sternberg, Robert J.; Kaufman, James C. The evolution of intelligence. Mahwah, NJ: Lawrence Erlbaum Associates. pp. 223–250. ISBN 080583267X. OCLC 44775038.
  5. Frensch, Peter A.; Funke, Joachim, eds. (1995). Complex problem solving: the European perspective. Hillsdale, NJ: Lawrence Erlbaum Associates. ISBN 0805813365. OCLC 32131412.
  6. Kepner, Charles Higgins; Tregoe, Benjamin B. (1997) [1965]. The new rational manager: an updated edition for a new world (Updated ed.). Princeton, NJ: Princeton Research Press. OCLC 37666447.
  7. Monahan, George E. (2000). Management decision making: spreadsheet modeling, analysis, and application. Cambridge, UK; New York: Cambridge University Press. pp. 33–40. ISBN 0521781183. OCLC 42921287.
  8. Armstrong, Jon Scott (2001). "Role playing: a method to forecast decisions". In Armstrong, Jon Scott. Principles of forecasting: a handbook for researchers and practitioners. International series in operations research & management science. Boston, MA: Kluwer Academic Publishers. pp. 15–30. ISBN 0792379306. doi:10.1007/978-0-306-47630-3_2.
  9. Paul Saffo quoted in: Foley, John (30 October 1995). "Managing information: infoglut". InformationWeek. Archived from the original on 2001-02-22. Retrieved 2015-07-26.
  10. Kutty, Ambalika D.; Kumar Shee, Himanshu; Pathak, R. D. (November 2007). "Decision-making: too much info!". Monash Business Review. 3 (3): 8–9. doi:10.2104/mbr07056.
  11. Hall, Crystal C.; Ariss, Lynn; Todorov, Alexander (July 2007). "The illusion of knowledge: when more information reduces accuracy and increases confidence" (PDF). Organizational Behavior and Human Decision Processes. 103 (2): 277–290. doi:10.1016/j.obhdp.2007.01.003.
  12. Franklin, Benjamin (1975) [1772]. "To Joseph Priestley". In Willcox, William Bradford. The papers of Benjamin Franklin: January 1 through December 31, 1772. 19. New Haven: Yale University Press. pp. 299–300. ISBN 0300018657. OCLC 310601.
  13. Mann, Leon; Harmoni, Ros; Power, Colin (1991). "The GOFER course in decision making". In Baron, Jonathan; Brown, Rex V. Teaching decision making to adolescents. Hillsdale, NJ: Lawrence Erlbaum Associates. pp. 61–78. ISBN 0805804978. OCLC 22507012. See also: Mann, Leon (July 1989). "Becoming a better decision maker". Australian Psychologist. 24 (2): 141–155. doi:10.1080/00050068908259558.
  14. Janis, Irving L.; Mann, Leon (1977). Decision making: a psychological analysis of conflict, choice, and commitment. New York: Free Press. ISBN 0029161606. OCLC 2542340.
  15. Guo, Kristina L. (June 2008). "DECIDE: a decision-making model for more effective decision making by health care managers". The Health Care Manager. 27 (2): 118–127. PMID 18475113. doi:10.1097/01.HCM.0000285046.27290.90.
  16. Brown, Pam (November 29, 2007), Career coach: decision-making, Pulse, retrieved July 12, 2012 (subscription required)
  17. Pijanowski, John (February 2009). "The role of learning theory in building effective college ethics curricula". Journal of College and Character. 10 (3): 1–13. doi:10.2202/1940-1639.1088.
  18. Griffin, Emory A. (1991). "Interact system model of decision emergence of B. Aubrey Fisher" (PDF). A first look at communication theory (1st ed.). New York: McGraw-Hill. pp. 253–262. ISBN 0070227780. OCLC 21973427.
  19. Postmes, T; Spears, Russell; Cihangir, Sezgin (2001). "Quality of decision making and group norms". Journal of Personality and Social Psychology. 80 (6): 918–930. PMID 11414374. doi:10.1037/0022-3514.80.6.918.
  20. 1 2 3 Schacter, Daniel L.; Gilbert, Daniel Todd; Wegner, Daniel M. (2011) [2009]. Psychology (2nd ed.). New York: Worth Publishers. ISBN 9781429237192. OCLC 755079969.
  21. 1 2 Crozier, W. Ray; Ranyard, Rob (1997). "Cognitive process models and explanations of decision making". In Ranyard, Rob; Crozier, W. Ray; Svenson, Ola. Decision making: cognitive models and explanations. Frontiers of cognitive science. London; New York: Routledge. pp. 5–20. ISBN 0415158184. OCLC 37043834.
  22. Blackhart, G. C.; Kline, J. P. (2005). "Individual differences in anterior EEG asymmetry between high and low defensive individuals during a rumination/distraction task" (PDF). Personality and Individual Differences. 39 (2): 427–437. doi:10.1016/j.paid.2005.01.027.
  23. Drake, R. A. (1993). "Processing persuasive arguments: 2. Discounting of truth and relevance as a function of agreement and manipulated activation asymmetry". Journal of Research in Personality. 27 (2): 184–196. doi:10.1006/jrpe.1993.1013.
  24. Chua, E. F.; Rand-Giovannetti, E.; Schacter, D. L.; Albert, M.; Sperling, R. A. (2004). "Dissociating confidence and accuracy: Functional magnetic resonance imaging shows origins of the subjective memory experience" (PDF). Journal of Cognitive Neuroscience. 16 (7): 1131–1142. PMID 15453969. doi:10.1162/0898929041920568.
  25. Plous, Scott (1993). The psychology of judgment and decision making. Philadelphia: Temple University Press. ISBN 0877229139. OCLC 26548229.
  26. Perneger, Thomas V.; Agoritsas, Thomas (December 2011). "Doctors and patients' susceptibility to framing bias: a randomized trial". Journal of General Internal Medicine. 26 (12): 1411–1417. PMC 3235613Freely accessible. PMID 21792695. doi:10.1007/s11606-011-1810-x.
  27. Sharot, Tali (2011). The optimism bias: a tour of the irrationally positive brain (1st ed.). New York: Pantheon Books. ISBN 9780307378484. OCLC 667609433.
  28. Sharot, Tali; Korn, Christoph W.; Dolan, Raymond J. (October 2011). "How unrealistic optimism is maintained in the face of reality". Nature Neuroscience. 14 (11): 1475–1479. PMC 3204264Freely accessible. PMID 21983684. doi:10.1038/nn.2949.
  29. Forsyth, Donelson R. (2014) [1983]. Group dynamics (6th ed.). Belmont, CA: Wadsworth Cengage Learning. ISBN 9781133956532. OCLC 826872491.
  30. Sparks, Erin (2007). "Satisficing". In Baumeister, Roy F.; Vohs, Kathleen D. Encyclopedia of social psychology. Thousand Oaks, CA: Sage Publications. pp. 776–778. ISBN 9781412916707. OCLC 123119782.
  31. Kahneman, Daniel (2011). Thinking, fast and slow. New York: Farrar, Straus, and Giroux. ISBN 9780374275631. OCLC 706020998.
  32. 1 2 Katsenelinboigen, Aron (1997). The concept of indeterminism and its applications: economics, social systems, ethics, artificial intelligence, and aesthetics (PDF). Westport, CT: Praeger. ISBN 0275957888. OCLC 36438766.
  33. Ulea, Vera (2002). A concept of dramatic genre and the comedy of a new type: chess, literature, and film. Carbondale: Southern Illinois University Press. pp. 17–18. ISBN 0809324520. OCLC 51301095.
  34. Myers, Isabel Briggs; Kirby, Linda K.; Myers, Katharine D. (1998) [1976]. Introduction to type: a guide to understanding your results on the Myers-Briggs Type Indicator. Introduction to type series (6th ed.). Palo Alto, CA: Consulting Psychologists Press. OCLC 40336039.
  35. Pittenger, David J. (2005). "Cautionary comments regarding the Myers-Briggs Type Indicator" (PDF). Consulting Psychology Journal: Practice and Research. 57 (3): 210–221. doi:10.1037/1065-9293.57.3.210.
  36. Hogan, Robert (2007). Personality and the fate of organizations. Mahwah, NJ: Lawrence Erlbaum Associates. p. 28. ISBN 0805841423. OCLC 65400436. Most personality psychologists regard the MBTI as little more than an elaborate Chinese fortune cookie...
  37. Martinsons, Maris G. (December 2006). "Comparing the decision styles of American, Chinese and Japanese business leaders". Best Paper Proceedings of Academy of Management Meetings, Washington, DC, August 2001. SSRN 952292Freely accessible.
  38. Walton, Mark E.; Devlin, Joseph T.; Rushworth, Matthew F. S. (November 2004). "Interactions between decision making and performance monitoring within prefrontal cortex". Nature Neuroscience. 7 (11): 1259–1265. PMID 15494729. doi:10.1038/nn1339.
  39. Damasio, Antonio R. (1994). Descartes' error: emotion, reason, and the human brain. New York: Putnam. ISBN 0399138943. OCLC 30780083.
  40. Gold, Joshua I.; Shadlen, Michael N. (2007). "The neural basis of decision making". Annual Review of Neuroscience. 30: 535–574. PMID 17600525. doi:10.1146/annurev.neuro.29.051605.113038.
  41. Kiani, Roozbeh; Shadlen, Michael N. (May 2009). "Representation of confidence associated with a decision by neurons in the parietal cortex". Science. 324 (5928): 759–764. PMC 2738936Freely accessible. PMID 19423820. doi:10.1126/science.1169405.
  42. Kennerley, Steven W.; Walton, Mark E.; Behrens, Timothy E. J.; Buckley, Mark J.; Rushworth, Matthew F. S. (July 2006). "Optimal decision making and the anterior cingulate cortex". Nature Neuroscience. 9 (7): 940–947. PMID 16783368. doi:10.1038/nn1724.
  43. Brunton, Bingni W.; Botvinick, Matthew M.; Brody, Carlos D. (April 2013). "Rats and humans can optimally accumulate evidence for decision-making" (PDF). Science. 340 (6128): 95–98. PMID 23559254. doi:10.1126/science.1233912.
  44. Naqvi, Nasir; Shiv, Baba; Bechara, Antoine (October 2006). "The role of emotion in decision making: a cognitive neuroscience perspective" (PDF). Current Directions in Psychological Science. 15 (5): 260–264. doi:10.1111/j.1467-8721.2006.00448.x.
  45. Barbey, Aron K.; Colom, Roberto; Grafman, Jordan (March 2014). "Distributed neural system for emotional intelligence revealed by lesion mapping" (PDF). Social Cognitive and Affective Neuroscience. 9 (3): 265–272. PMC 3980800Freely accessible. PMID 23171618. doi:10.1093/scan/nss124.
  46. Yates, Diana. "Researchers map emotional intelligence in the brain". University of Illinois News Bureau. University of Illinois.
  47. HealthDay (2013-01-28). "Scientists complete 1st map of 'emotional intelligence' in the brain". US News and World Report.
  48. Gardner, Margo; Steinberg, Laurence (July 2005). "Peer influence on risk taking, risk preference, and risky decision making in adolescence and adulthood: an experimental study" (PDF). Developmental Psychology. 41 (4): 625–635. PMID 16060809. doi:10.1037/0012-1649.41.4.625.
  49. Steinberg, Laurence (April 2007). "Risk taking in adolescence: new perspectives from brain and behavioral science". Current Directions in Psychological Science. 16 (2): 55–59. doi:10.1111/j.1467-8721.2007.00475.x.
  50. Moutsiana, Christina; Garrett, Neil; Clarke, Richard C.; Lotto, R. Beau; Blakemore, Sarah-Jayne; Sharot, Tali (October 2013). "Human development of the ability to learn from bad news". Proceedings of the National Academy of Sciences. 110 (41): 16396–16401. PMC 3799330Freely accessible. PMID 24019466. doi:10.1073/pnas.1305631110.
  51. Reyna, Valerie F. (November 2013). "Psychology: Good and bad news on the adolescent brain". Nature. 503 (7474): 48–49. doi:10.1038/nature12704.
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