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- a piece of information
- the act or result of understanding the inner nature of things or of seeing intuitively in Greek called noesis
- an introspection
- the power of acute observation and deduction, penetration, discernment, perception called intellection or noesis
- an understanding of cause and effect based on identification of relationships and behaviors within a model, context, or scenario (see artificial intelligence)
 In psychology The phenomenon had its beginnings with Gestalt Psychology, in the early part of the 19th century, during the search for an alternative to associationism and the associationistic view on learning. Some proposed potential mechanisms for insight include: suddenly seeing the problem in a new way, connecting the problem to another relevant problem/solution pair, releasing past experiences blocking the solution presentation, or seeing the bigger, coherent picture of a problem.
 Methods Problems of insight commonly fall into three types.
 Breaking Functional Fixednessfunctional fixedness), like the "Duncker candle problem". In the "Duncker candle problem", individuals are given matches and a box of tacks and asked to find a way to attach a candle to the wall to light the room. The solution requires the participants to empty the box of tacks, set the candle inside the box, tack the box to the wall, and light the candle with the matches.
 Using Spatial AbilityThe second type of insight problem requires spatial ability to solve, like the "Nine-dot Problem". The famous "Nine-dot problem" requires participants to draw four lines, through nine dots, without picking their pencil up.
 Using Verbal AbilityThe third, and final, type of problem requires verbal ability to solve, like the Remote Associates Test. In the RAT, individuals must think of a word that connects three, seemingly unrelated, words. RAT are often used in experiments, because they can be solved both with and without insight.
 Specific Results
 Insight versus Non-insight ProblemsTwo clusters of problems, those solvable by insight and those not requiring insight to solve, have been observed. An individual’s cognitive flexibility, fluency, and vocabulary ability are predictive of performance on insight problems, but not on non-insight problems. In contrast, fluid intelligence is mildly predictive of performance on non-insight problems, but not on insight problems.
 EmotionPeople in a better mood are more likely to solve problems by insight. Research demonstrated that self-reported positive affect of participants uniquely increased insight before and during the solving of a problem, as indicated by differing brain activity patterns. Interestingly, people experiencing anxiety showed the opposite effect, and solved less problems by insight.
 IncubationUsing a geometric and spatial insight problem, it was found that providing participants with breaks improved their performance as compared to participants who did not receive a break. However, the length of incubation between problems did not matter. Thus, participants' performance on insight problems improved just as much with a short break (four minutes) as it did with a long break (12 minutes).
 SleepResearch has shown sleep to help produce insight. Individuals were initially trained on insight problems. Following training, one group was tested on the insight problems after sleeping for eight hours at night, one group was tested after staying awake all night, and one group was tested after staying awake all day. Those that slept performed twice as well on the insight problems than those who stayed awake.
 In the BrainDifferences in brain activation in the left and right hemisphere seem to be indicative of insight versus non-insight solutions. Using RAT’s that were either presented to the left or right visual field, it was shown that participants having solved the problem with insight were more likely to have been shown the RAT on the left visual field, indicating right hemisphere processing. This provides evidence that the right hemisphere plays a unique role in insight.
fMRI and EEG scans of participants completing RAT's demonstrated unique brain activity corresponding to problems solved by insight. For one, there is high EEG activity in the alpha- and gamma-band about 300 milliseconds before participants indicated a solution to insight problems, but not to non-insight problems. Additionally, problems solved by insight corresponded to increased activity in the temporal lobes and mid-frontal cortex, while more activity in the posterior cortex corresponded to non-insight problems. The data suggests there is something different occurring in the brain when solving insight versus non-insight problems that happens right before the solving of the problem.
 Group InsightIt was found that groups typically perform better on insight problems (in the form of rebus puzzles with either helpful or unhelpful clues) than individuals.
 Thus, after a 15-minute break, individual performance improved for the rebus puzzles with unhelpful clues, and group performance improved for rebus puzzles with both unhelpful and helpful clues.
 Individual DifferencesPersonality and gender, as they relate to performance on insight problems, was studied using a variety of insight problems. It was found that participants who ranked lower on emotionality and higher on openness to experience performed better on insight problems. Interestingly, men outperformed women on insight problems, and women outperformed men on non-insight problems.
Higher intelligence (higher IQ) has also been found to be associated with better performance on insight problems. However, those of lower intelligence benefit more than those of higher intelligence from being provided with cues and hints for insight problems.
 MetacognitionIndividuals are poorer at predicting their own metacognition for insight problems, than for non-insight problems. Individuals were asked to indicate how "hot" or "cold" to a solution they felt. Generally, they were able to predict this fairly well for non-insight problems, but not for insight problems. This provides evidence for the suddenness involved during insight.
 In Naturalistic SettingsRecently, insight was studied in a non-laboratory setting. Accounts of insight that have been reported in the media, such as in interviews, etc., were examined and coded. It was found that insights that occur in the field are typically reported to be associated with a sudden "change in understanding" and with "seeing connections and contradictions" in the problem. Interestingly, it was also found that insight in nature differed from insight in the laboratory. For example, insight in nature was often rather gradual, not sudden, and incubation was not as important.
 In AnimalsStudies with apes have provided evidence of insight in animals. Apes were presented with an insight problem that required the use of objects in new and original ways, in order to win a prize (usually, some kind of food). It was observed that the animals would continuously fail to get the food, and this process occurred for quite some time; however, rather suddenly, they would purposefully use the object in the way needed to get the food, as if the realization had occurred out of nowhere. Experimenters regarded the behavior as something resembling insight in apes.
 TheoriesThere are a number of theories representing insight; at present, no one theory dominates interpretation.
 Dual Process TheoryAccording to the dual process theory, there are two systems used to solve problems. The first involves logical and analytical thought processes based on reason, while the second involves intuitive and automatic processes based on experience. Research has demonstrated that insight probably involves both processes; however, the second process is more influential.
 Three-Process TheoryAccording to the three-process theory, intelligence plays a large role in insight. Specifically, insight involves three different processes (selective encoding, combination, and comparison), which require intelligence to apply to problems. Selective encoding is the process of focusing attention on ideas relevant to a solution, while ignoring features that are irrelevant. Selective combination is the process of combining the information previously deemed relevant. Finally, selective comparison is the use of past experience with problems and solutions that are applicable to the current problem and solution.
 Four-Stage ModelAccording to the four-stage model of insight, there are four stages to problem solving. First, the individual prepares to solve a problem. Second, the individual incubates on the problem, which encompasses trial-and-error, etc. Third, the insight occurs, and the solution is illuminated. Finally, the verification of the solution to the problem is experienced. Since this model was proposed, other similar models have been explored that contain two or three similar stages.
 In psychiatryIn psychology and psychiatry, insight can mean the ability to recognize one's own mental illness. This form of insight has multiple dimensions, such as recognizing the need for treatment, and recognizing consequences of one's behavior as stemming from an illness. A person with very poor recognition or acknowledgment is referred to as having "poor insight" or "lack of insight." The most extreme form is Anosognosia, which is the total absence of insight into one's own mental illness. Many mental illnesses are associated with varying levels of insight. For example, people with obsessive compulsive disorder and various phobias tend to have relatively good insight that they have a problem and that their thoughts and/or actions are unreasonable, yet are compelled to carry out the thoughts and actions regardless. Patients with Alzheimer's disease, schizophrenia and various psychotic conditions tend to have very poor awareness that anything is wrong with them.
"Insight" can also refer to other matters in psychology. Problem solving behavior requiring insight is the subject of insight phenomenology.
An insight is the derivation of a rule which links cause with effect. The mind is a model of the universe built up from insights.
Thoughts of the mind fall into two categories:
- Analysis of past experience with the purpose of gaining insight for use within this model at a later date
- Simulations of future scenarios using existing insights in the mind model in order to predict outcomes
Intuition, which is often described in the popular literature as an alternative thought process, is merely another manifestation of insight. In this process, multiple bits of seemingly unrelated data are linked together and a hypothesis or plan of action is generated. Usually this process is generated in a novel situation. Such a circumstance links data which had previously seemed unrelated. The categories and analytical process, however, are not distinct from any other form of insight. The only difference is the degree of novelty of the stimulus.
 In religionThe Pali word for "insight" is "vipassana", which has been adopted as the name of a kind of Buddhist meditation.
 In marketingPat Conroy, points out that an insight is a statement based on a deep understanding of your target consumers' attitudes and beliefs, which connect at an emotional level with your consumer, provoking a clear response (This brand understands me! That is exactly how I feel! — even if they've never thought about it quite like that) which, when leveraged, has the power to change consumer behavior. Insights must affect a change in consumer behavior that benefits your brand, leading to the achievement of the marketing objective.
Insights can be based on:
- Real or perceived weakness to be exploited in competitive product performance or value
- Attitudinal or perceived barrier in the minds of consumers, regarding your brand
- Untapped or compelling belief or practice
- Create a disequilibrium
- Change momentum
- Exploited via a benefit or point of difference that your brand can deliver
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 Further reading
- Bradley, Nigel, (2007), Marketing Research: Tools and Techniques, Oxford: Oxford University Press. ISBN 978-0-19-928196-1
- Lehrer, Jonah, Annals of Science: "The Eureka Hunt: Why do good ideas come to us when they do?". — The New Yorker. (c/o Massachusetts Institute of Technology), July 28, 2008. (Adobe Acrobat *PDF document)
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