All posts by R. G.

Intuition is Synchronized Emotional Resonance of Limbic System in Response to Changes in Environment.

One of the first most recognizable complex intellectual tasks in human behavior is sensing and recognition of expression of emotions. In early years most mammals are quickly learning how to communicate trough expression of own emotions by reacting to any change in internal or external environments. For successful adaptation recognition of emotions expressed by other members of social environment is essential and it is a perpetual engine of learning. It is a first step in development of intuition. Child without pathological deviations will constantly learn from the experiences and will be trying to find the ways to evoke emotional expression from others. This is a most important point in cognitive development, because in this period of life the boundaries for cognitive modality are setting. According to Physioepistemological model, there are three cognitive modalities that define emotional and behavioral response depending on one of five personality traits. The most rudimental one – the survival mode, is characterized by the expression of mostly simple emotions (such as fear or love) and behavior is based on intuition (immediate response). The search mode is a mixed modality, which might include moderate complexity of emotions and expression of behavior is based on practical and analytic intellects. The thriving mode substantially more complex dimensionally and can include opposite directions in mood and biases formation. During this modality emotions are very complex (such as guilt or empathy) and behavior is based on creative intellect. Based on this model, cognitive modality is multidimensional (defined by personality trait in mood formation) and multidirectional (defined by learning ability in internal bias formation). Consequently, setting boundaries for self-motivation in future is essential for adaptive reactions and development of higher level of intellectual abilities.
Cognitive recognition of emotions in the social environment associated and synchronized with cognitive sensation for other environmental changes (such as temperature, touch, or loud sounds, for example) and synchronization of such events with change of own emotions, produces instant intellectual response known as an intuition. Because this phenomenon is based strictly on unconsciously and consciously produced sensations, it is rely on emphatic accuracy of the perceiver.

What You Should Know About Cognitive Modification

First, it is not a therapy per se. While it does completely modify the wiring in the brain, it is not a medicine. It is not even therapeutically advised or delivered session. It is a solely self-motivation. Physiologically (according to Physioepistemological model), associated neuronal networks interconnected in presence of self-directed motivators (drivers), which essentially are the neuromodulators presented in the site of the activation in particular moment of the process. Those drivers/motivators are responsible for mood and internal bias formation. While mood is a result of associated emotions (simple and complex), biases are cognitive attachments related to attention and internal thought interpretation. It is worth to mention that biases are the basis for creative nature of the imagination and from some perspective could be considered as imagination itself.
All sort of techniques related to cognitive modification are inevitably related to the modification or adjustment in creative portion of intellectual process. Because it is strictly self-induced and strictly self-controlled process, it could not be considered as an intervention.
Second, and most important, is a process of learning. Any behavioral/cognitive modification is a learning process. If we start recognize education as an intervention, very soon we end up it the point where specific education will be prescribed by certified specialists. It is extremely dangerous and totally unacceptable from any perspective, while we already have instituted the complex system of educational advisers and all kind of oversees, who de-facto decide for our children what level and kind of education they can get.
Final point is that as we progress in obtaining knowledge in neuroscience, public policies should be adjusted. It should not be only financial side of it, but more ethical and empirical implications and consequences taken in consideration. We curtail our abilities to progress by solely relying on governmental body to decide and establish educational standards. While some standardization might be necessary in practical drilling, pedagogical, theoretical and methodological skills are subjects of artistic nature, which could be irreparably damaged by unnecessarily over-regulation.





Metamorphosis of Dynamic Mental States in Multiple Dimensions and Directions

A Greek philosopher Heraclitus (500 BC) once said, “No man ever steps in the same river twice, for it’s not the same river and he’s not the same man.” Dynamic development of self-organizing systems, humans, is highly plastic, lifelong, affected by multiple interacting forces, and multidimensional with multiple directions. After we recognized the fact that our development goes through multiple stages, we started recognizing that those stages can be different if some environmental factors are changed. Our physical body changes from the day one to the last day and alone with physical changes we go through mental changes, which can be less or more noticeable. We noticed that sometimes children can mature physically faster or their cognitive development can be slightly different from previous generation. We are starting noticing that in previous generations’ creativity and emotional sensitivity was not age related, but as social environment changes, age might become more leading factor. At same time we noticed that such small change in social environment as attachment to certain religious traditions can change creative potential for a few generations, which can lead to stagnation or rapid development of whole human civilization and become a reason for change of the climate on the whole planet… Heraclitus’ point was that strife and change are natural conditions of the universe. Integrative Physioepistemological model allows observe change in one dimension and follow changes in other dimensions, while those changes could be multidirectional.
Multiple studies have provided evidence of physiological brain’s states that directly correlate with mental states. Complex adaptive system, such as human civilization, delivers challenge of discovering and observation of whole complexity, because we are naturally inclining to simplify our explanation of complex events. The view on mental state in conjuncture with multiple dimensions entirely changes way we perceive the environment. Perceptive changes in the environment activate polygene, which can invoke the adaptive processes not only in individual, but in whole community. All together, it is related to change in mental state, which could be called metamorphosis of neuronal networks in the brain and qualitative change in robust communications and associations between them. Despite of the whimsy idea that metamorphosis of any mental state disconnected from physiological conditions of the brain, it is very challenging to provide enough evidence otherwise, because the finite time periods within similar systems could be different and dependence of outcome on multidimensional factors create illusion of systematic disintegration. Such change entirely changes way we perceiving the environment and invoking the adaptive processes to such changes. Environmental changes produce physiological stress, which involves two-way communication between the brain and all bodily systems, such as cardiovascular, immune, and other systems via neural and endocrine mechanisms. The physiological changes in brain structures such as hippocampus, amygdale, and prefrontal cortex include stress-induced structural remodeling, which alters behavioral and physiological responses. Such remodeling is a basis for metamorphosis of mental states. Release of different neuromediators and neuromodulators (such as glucocorticoids for example) can have effects on many systems and processes – from change in brain structure and transformation of mood to gastrointestinal activity and food intake control. We just started realizing that events in early life affect how the brain responds to environmental changes throughout adult life and influence the aging process trough all lifespan. Complex morphology of the brain and its’ interaction with environment produces constant metamorphosis of mental states in multiple dimensions and it could propagate in multiple directions simultaneously.





Chain of Emotional Responses as a Driver for Social Adjustments and Initiator of Metacognitive Senses.

Successful practice of Persuasive Manipulation as an educational method requires detailed understanding of Cognitive looping, cognitive modality, and role of emotions in coordinated unconscious and conscious mental processing. For specific example of such processing, the feeling of guilt is substantially useful as an exploratory sample and a very significant tool for persuasion and manipulation in general.
Guilt, viewed as a chain of emotional responses (regret-remorse-resentment-guilt), changes cognitive modality from thriving or search to survival. Feeling of guilt produces metacognitive sense of compassion. It worth mention that sense of compassion cares significant social value and people with an advanced sense of compassion could feel physical pain, while are observing others suffering. Otherwise, people that with interrupted chain for any reasons often labeled with antisocial personality disorder and express tendency to commit various crimes. Some psychologists convinced that guilt is perpetuating obsessive-compulsive disorder and is a possible source for anxiety disorder, but that is highly controversial from Physioepistemology point of view. Guilt is one of the most significant motivators for actions and responsible for neural coding.
Complex feeling, such as guilt, requires significant amount of cognitive processing on both conscious and unconscious levels and produces learning mechanism for adaptation in survival mode. Such mechanism is necessary for finding quick solution for complicated situation. Failure to produce satisfactory response mistakenly viewed as separate cognitive disorder, while source of such mishap located lack of neuronal sensitivity responsible for particular stage of chain emotional formation, cognitive looping, or cognitive modality change. As a result, person cannot develop whole learning mechanism of processing complex emotions or unable to produce socially accepted cognitive response. For individual that able to produce such response evaluation of neural decoding could be done with help of Neuroaccounting.
Another interesting fact is that emotions can accumulate with time and produce amplification of meta-cognitive senses as in a case with compounding remorse producing self-condemnation, for example. Such accumulation is an evidence of physiologic nature of emotions, cumulative effect of which can be viewed as an accumulation of charged neuronal networks and a calculated effect could be estimated with use of Neuroaccounting. In this case complexity of emotional responses should be explored as a separate account for every level of emotional awareness in relation to mode of sense responsible for evoking particular emotion. It helps to overcome inconsistencies in determination of emotional recognition for neural coding versus action systems.





Making a Case for Physioepistemology

The fact that every one of us has own sense of reality and ability to learn are evident that we are genetically predisposed to intellectual activity. Would it possible for us to act as intelligent beings without creating our own set of false and true values? Learning is a cognitive looping and meta-cognitive processing. Discrimination of our own real (perception based) and false (imaginative) emotions is the sense of reality. Data shows that deception is the root for truth search we are all born with. The work of most prominent psychologists Freud, Piaget, Erickson, Watson, Skinner, Bandura, Vygotsky, Maslow, Rogers, Kohleberg, etc. includes many details and it covers various sides of physical, cognitive, and social development. Still, our sense of reality escaped rigorous scientific study, because until recently concept of Physioepistemology was not available. Here are some basic assumptions that might convince community to take another good look in more physical, than metaphysical approach in studying intellect and cognition. The Physioepistemology is the branch of natural science that studies processes of knowledge formation in self-organized biological systems, based on dynamism of the physiological processes and related to meta-cognitive sense of reality including unconscious and conscious components of mental reflection.
Physically, if birefringence (through double refraction) of ultra-low photon emission by neurons is responsible for cognitive processes, degree of polarization within neuronal networks will depend on concentrations of all elements circulated in cerebral fluid. If intelligence emerges as sensitivity to ultralow photon emission by network of particular neurons, it will be highly individualized and genetically predetermined.
Dynamically, learning starts from realization of differences between reality and dream as early as in pre-natal period. In this case, dream (pre-imagination) will come first prenatally as neuronal networks become available. Realization of own senses will appear with first inhale it takes full start. First breath of newborn will initiate perceptive signaling trough entire nervous system, first emotion produced, and part of this emotion is image of own existence. Increased concentration of nitrogen/oxygen in blood triggers mechanism of association of cross-linked neurons that in general can be counted as imagination. With time (individually varies) from few day to few weeks newborn learns to express senses trough emotions and by age of 6 month already able to produce full range of emotional expressions without real feeling. By age of three years most kids already trying to manipulate external environment (parents, care givers, social acquaintances) with/without tantrum and by age of six years old child should have fully operational imagination with some comprehension of very complex concepts of social hierarchy and some sense of power in social relations. The process of imagination is a basis for cognitive development, same way as physical development of receptors sensing ultralow photon emission basis for cognitive processing, and consequently, cognitive development is basis for social development. It is important to note that intellect is a social phenomenon. It is not nurture versus nature. It is nature (environment plus inherited genetics) multiplied by nurture (social influence) divided by individual creativity (imagination).
Moshman and Franks (1986) wrote: “An argument is valid if its conclusion necessarily follows from its premises, regardless of whether the premises and conclusion are empirically true or false.”
The premise of Physioepistemology is in the fact that most sense of reality is in the unconscious meta-cognitive process that has physiological need for knowledge. Let’s take for example time perception, which is a subjective feeling and complementary component of reality sense. William J. Friedman (1993) and David Eagleman studied time perception and found that different types of sensory information (auditory, tactile, visual, etc.) are processed at different speeds by different neural architectures. The brain must learn how to overcome these speed disparities to create a representation of the external world. Time perception has biological nature because it is a product of circadian and ultradian rhythms regulated by photosensitive proteins and byproducts of theirs metabolism. Coordination in different sensory modalities is unconscious. Time sense produces specious present required for qualitative conscious separation of present, past, and future, which is imaginary part of experience. That means we have unconscious expectations of our future and we have to learn how to manage it.



Amicable Behavior Modification by Persuasive Manipulation with use of the Neuroaccounting

Acquired behavior or learning without any punishment involved and applied as to individual as to social groups is the best way to achieve an adaptive reaction to the particular environmental change. The ultimate goal in this case is to identify the variables in behavior responsible for most suitable and long-lasting sustainable socially acceptable behavioral pattern of actions. To say it from functionality point of view, society is a representation of the patterns in statistically significant number of individual behaviors engaged in tangible activities with automatic internal stimulation. The negative reinforcement does not apply to social level of communication, because the cancelation of negative emotions within the same modality. For example, criminal intent may produce fear of punishment, but reward of increased social weight in particular social group of criminals can have higher positive reinforcement.
Persuasive Manipulation (PM) is a scientific approach committed to effectiveness with direct and frequent measurements and it requires use of Neuroaccounting as a tool for implementation. This method can be used for educational purpose only and applied only for assessment of learning outcomes. The objective for application of Persuasive Manipulation is to arrange cumulative effects of constantly changing environment with purpose to control process of learning during adaptation period. It produces an array of results, from limited creative skill acquirement to profound systemic change.
Because Neuroaccounting rely on established threshold in individual neuronal network as a response to affective or effective adaptive reactions, there currently are no other more suitable tools to detect positive effects in environmental changes regarding acquisition of novel behavior or withdrawing from old one. In this part, it is similar to classical operant conditioning, but it is different in an involvement of the controlled complex environmental changes and very sophisticated accounting of responses, such as a directed new creative tool development. It is specifically designed to promote creative part of intellectual process to increase adaptability, but in some controllable way that negative behavior (criminal intent, for example) is suppressed and is not a part of the possible outcome. It worth mention that positive effect in this case means increased expression of desirable behavior, without subjective evaluation of its value.
Another important point in use of Neuroaccounting is that complex multimodal environmental stimuli produce individual responses that may differ in an array of behavioral specifics, such as time of response or force of the emotions. It is very useful in determination of the degree of the extinction-induced response variability as a particular application and as for a functional assessment in general.

References

Brobst, B.; Ward, P. (2002). “Effects of public posting, goal setting, and oral feedback on the skills of female soccer players”. Journal of Applied Behavior Analysis 35 (3): 247–57.
Brothers, K.J.; Krantz, P.J.; McClannahan, L.E. (1994). “Office paper recycling: A function of container proximity”. Journal of Applied Behavior Analysis 27 (1): 153–60.
Dardig, Jill C.; Heward, William L.; Heron, Timothy E.; Nancy A. Neef; Peterson, Stephanie; Diane M. Sainato; Cartledge, Gwendolyn; Gardner, Ralph; Peterson, Lloyd R.; Susan B. Hersh (2005). Focus on behavior analysis in education: achievements, challenges, and opportunities. Upper Saddle River, NJ: Pearson/Merrill/Prentice Hall.
De Luca, R.V.; Holborn, S.W. (1992). “Effects of a variable-ratio reinforcement schedule with changing criteria on exercise in obese and non-obese boys”. Journal of Applied Behavior Analysis 25 (3): 671–79.
DeVries, J.E.; Burnette, M.M.; Redmon, W.K. (1991). “AIDS prevention: Improving nurses’ compliance with glove wearing through performance feedback”. Journal of Applied Behavior Analysis 24 (4): 705–11.
Dillenburger, K.; Keenan, M. (2009). “None of the As in ABA stand for autism: dispelling the myths”. J Intellect Dev Disabil 34 (2): 193–95.
Drasgow, E.; Halle, J.W.; Ostrosky, M.M. (1998). “Effects of differential reinforcement on the generalization of a replacement mand in three children with severe language delays”. Journal of Applied Behavior Analysis 31 (3): 357–74.
Hagopian, L.P.; Thompson, R.H. (1999). “Reinforcement of compliance with respiratory treatment in a child with cystic fibrosis”. Journal of Applied Behavior Analysis 32 (2): 233–36.
Kuhn, S.A.C.; Lerman, D.C.; Vorndran, C.M. (2003). “Pyramidal training for families of children with problem behavior”. Journal of Applied Behavior Analysis 36 (1): 77–88.
Mulick, James A (2006). “Positive Behavior Support and Applied Behavior Analysis”. The Behavior Analyst 29 (1): 51–74.
Powers, R.B.; Osborne, J.G.; Anderson, E.G. (1973). “Positive reinforcement of litter removal in the natural environment”. Journal of Applied Behavior Analysis 6 (4): 579–86.
Thompson, T. (1984). “The examining magistrate for nature: a retrospective review of Claude Bernard’s An Introduction to the Study of Experimental Medicine”. Journal of the Experimental Analysis of Behavior 2 (41): 212–13.
Wong, S.E.; Martinez-Diaz, J.A.; Massel, H.K.; Edelstein, B.A.; Wiegand, W.; Bowen, L.; Liberman, R.P. (1993). “Conversational skills training with schizophrenic inpatients: A study of generalization across settings and conversants”. Behavior Therapy 24 (2): 285–304.


Role of Education on Increase of the Inherited Inequality

A transfer of the cultural capital including knowledge from one generation to another in the modern society, where the technological progress advanced to the level of high complexity and defines social stratification, education becomes the most important process in creating and substantiating social inequality and social differences. It is well established fact that the transfer of capital and wealth in a form of inheritance and gifts within families favors individuals for a higher level of education.
Homeschooling and families trading secrets became leading factors of the most influential potency in preserving some specific knowledge and cultural aspects of the financial stability and wealth within relatively small group of people. The support from competency-based education, unexpectedly for its creators and promoters, even increases the gap and allows formalize such transfer in a form of a degree from the most prestigious institutions without an attendance. At the same time, a naturally gifted children might benefit from competency-based education despite of the support from immediate family or community.
In a search for the most effective and efficient education we might ignore the necessity of the sociological research in this regard. Based on a theoretical model of intergenerational solidarity it is possible to weigh risks and benefits and find ways to regulate such processes with the best outcome for all parties involved.

References
Angel, Jacqueline L. Inheritance in Contemporary America: The Social Dimensions of Giving across Generations.
Davies, James B. “The Relative Impact of Inheritance and Other Factors on Economic Inequality”. The Quarterly Journal of Economics, Vol. 97, No. 3.
Dubner, Stephen. “How Big of a Deal Is Income Inequality? A Guest Post”. The New York Times. August 27, 2008.
Bowles, Samuel; Gintis, Herbert, “The Inheritance of Inequality.” Journal of Economic Perspectives Vol. 16, No. 3, 2002.
Clignet, Remi. Death, Deeds, and Descendants: Inheritance in Modern America.
Flippen, Chenoa A. “Racial and Ethnic Inequality in Home ownership and Housing Equity.” The Sociological Quarterly, Volume 42, No. 2 .
Marable, Manning. “Letter From America: Inheritance, Wealth and Race.”
Miller, Robert K., McNamee, Stephen J. (Edited By) Inheritance and Wealth in America.
Shapiro, Thomas M. The Hidden Cost of Being African American: How Wealth Perpetuates Inequality. Oxford University Press. 2004.



Basics of Neuroaccounting

Computing all neuronal processes within its complexity in relation to behavior and intelligence is an objective for computational neuroethology. Neuroaccounting is a methodological approach for measurement of sensory pre-processing, biomechanical properties, processing (analyzing), and integration of models that represent brain, body, and environment as it sensing and acting during active perception.
Basic Principles of Neuroaccounting:
-Neuroaccounting cannot be used to predict human behavior – it only can be used to study complex neuronal interconnections and associations for future adjustment (change) through learning;
-Neuroaccounting cannot be used to establish developmental, mental, or other disorders – it only can be used for educational purposes and learning assessments;
-Social interactions in human communities defined as deterministic chaotic dynamics and responsible for environmental changes;
– Humans defined as a self-organizing deterministic systems displaying sensitivity to initial conditions in the environment and follow arrow of time;
– Humans can exhibit an almost infinite number of behaviors in different environments;
– Humans can employ, manipulate, and create infinite number of tools for different actions;
-Humans have constantly pass qualitatively different physical, emotional, and mental stages to exhibit more complex behavior in same environment;
-Human behavior objected by current modality, subjected by emotional response to environmental change, and affected by specific tools used during adaptation period;
– Neural plasticity responsible for motor control and learning. It characterized by long-term depression of inactive associated neuronal networks;
-Mechanisms for intrinsic physiological control of complex interacting networks within fluctuating environment include unconscious and conscious components;
-Individual subjectivism can be established and recorded only based on difference for particular community in response to the variety of learning techniques and multitude of learning parameters/rates;
-Strength of neuronal signaling between interacting networks should pass established threshold to be accounted as affecting or effecting and could not change the overall balance if modality of the communicating networks is different;

References:
M. A. Arbib (1995), The handbook of brain theory and neural networks.
M. A. Arbib (2003), Rana computatrix to human language: towards a computational neuroethology of language evolution.
R. D. Beer (1990). Intelligence as Adaptive Behavior: An experiment in computational neuroethology.
M. A. Boden (2006). Mind as machine. Oxford University Press.
T.H. Bullock (1999) Neuroethology has pregnant agendas. J. Comp. Physiol. A 185(4)
Camhi, J. (1984) Neuroethology. Sinauer. Sunderland Mass.
Chiel, Beer (1997), The brain has a body: Adaptive behavior emerges from interactions of nervous system, body and environment, Trends in Neuroscience.
D. Cliff (1990) Computational Neuroethology: A provisional manifesto. In J.-A. Meyer and S. W. Wilson (editors): From Animals to Animats: Proceedings of the First International Conference on the Simulation of Adaptive Behaviour (SAB90).
D. Cliff (2003) Neuroethology, Computational. In M. A. Arbib (editor): The Handbook of Brain Theory and Neural Networks. Second Edition. MIT Press Bradford Books.
Ewert, P. (1980) Neuroethology. Springer-Verlag. New York.
Full, Koditschek (1997), Templates and anchors: Neuromechanical hypotheses of legged locomotion on land
Holmes, Full, et al., (2006)The dynamics of legged locomotion: Models, analyses, and challenges..
Nelson, MacIver (1990), 2006 Sensory acquisition in active sensing systems.
Suga, N. (1989). “Principles of auditory information-processing derived from neuroethology.” J Exp Biol 146: 277-86.
Schürg-Pfeiffer E., Spreckelsen C., and Ewert J.-P. (1993) Temporal discharge patterns of tectal and medullary neurons chronically recorded during snapping toward prey in toads Bufo bufo spinosus. J. Comp. Physiol.
Zupanc, Günther K.H. (2004). Behavioral Neurobiology and Integrative Approach. Oxford University Press. New York.


Introduction to Neuroaccounting in PM Assessment

As computational neuroscience and neuroinformatics advance, it becomes necessary to introduce new methodology that should help better understand and effectively apply acquired knowledge in educational field. Most of neuroscience currently is exploring in areas of neurocomputations and synchronizations in different neuronal networks, while completely different models are available for application. Based on emergent nature of intelligence, Neuroaccounting employs integrative model of self organizing systems. While exploring objective evidence, Neuroaccounting defined by indication of subjective thresholds required for computational process to take place during unconscious and conscious intellectual activities.
It is essential to use Neuroaccounting in implementation of Persuasive Manipulation for Assessment (PM Assessment). While it might have some risk of abuse, such risk is not greater than any influence from social interactions. Ericksonians use some elements of Neuroaccounting for inducing during therapy sessions. Most distinctive commonality there is indirect and accommodating approach with possibility of some confusion techniques involved. The key is a learning experience on both sides of the communication. That places Persuasive Manipulation on the list very effective educational methods.
Neuroaccounting is the measurement, processing, and communication of information about ability of the mind to come to correct conclusions and solve problems or understand solutions for identical issues and learn the ways of self-adjustments. It is important to distinct emotional responses, rational (analytic) mental processes, creative potential, and socially acquired (adopted) stereotypical ways to respond to different changes in the environment as a separate entities during PM Assessment.

References:
Autohypnotic Experiences of Milton H. Erickson (Milton H. Erickson and Ernest L. Rossi), The American Journal of Clinical Hypnosis, July. 1977 20, 36-54, reprinted in Collected Papers Volume 1.
Andre M. Weitzenhoffer (1976) Introduction/forward in Hypnotic Realities Erickson & Rossi
Rosen (1982), My Voice Will Go With You, p. 211.
Botvinick, M., & Plaut, D.C. (2004). Doing Without Schema Hierarchies: A Recurrent Connectionist Approach to Normal and Impaired Routine Sequential Action. Psychological Review, 111(2), 395-429.
Cadieu, C., Kouh, M., Pasupathy, A., Conner, C., Riesenhuber, M., & Poggio, T.A. (2007). A Model of V4 Shape Selectivity and Invariance. J Neurophysiol, 98, 1733-1750.
Cox, William T. L.; Abramson, Lyn Y.; Devine, Patricia G.; Hollon, Steven D. (2012). “Stereotypes, Prejudice, and Depression: The Integrated Perspective”. Perspectives on Psychological Science 7 (5): 427–449.
Gorton, Gregg E (2005). Milton Hyland Erickson The American Journal of Psychiatry. Washington. Vol.162, Iss. 7.
Gureckis, T.M., & Love, B.C. (2010) Direct Associations or Internal Transformations? Exploring the Mechanisms Underlying Sequential Learning Behavior. Cognitive Science, 34, 10-50.
Jones, M.N., & Mewhort, D.J.K. (2007). Representing word meaning and order information in a composite holographic lexicon. Psychological Review, 114, 1-37.



Intent in Persuasive Manipulation

By definition Persuasion and Manipulation differ in intent. In case of pure persuasion, both parties benefit, on contrary manipulator is sole beneficiary. In case of the Persuasive Manipulation, the target person(s) receives benefit of adjustment, because result of factual rearrangements leads to creative enrichment. While PM inducer can reap some temporary advantage, in long term, flexibility in associative neuro-connections produces major educational effect. The mental faculty of deliberate choices (will) gets trained and volition of future actions becomes more decisive upon a course of future actions.



Managing Attention in Persuasive Manipulation

Because of neuro-psychological nature (as neural correlate of consciousness and as neural correlate of a content of experience) of the Persuasive Manipulation, it can be used as educational method. By mastering ability of evoking particular type of attention, educators can increase productivity and efficacy of the educational process.
Clinical model of differential approach in identification of cognitive processes and activities offers five types of attention that could be categorized as:
-Focused attention (ability to respond discretely to specific stimuli);
-Sustained attention (vigilance- ability to maintain a consistent behavioral response during continuous and repetitive activity);
– Selective attention (ability to maintain a behavioral or cognitive set in the presence of competing stimuli);
– Alternating attention (ability to shift their focus of attention and move between tasks having different cognitive requirements);
–  Divided attention (ability to respond simultaneously to multiple tasks or multiple task demands).

The successful education relies on all types of attention and by doing so, it delivers highest rate of comprehension and memorization offered information by recipient.

The objectives for effective process of managing attention in Persuasive Manipulation must be identified as:
– Quick identification of the most important item in a complex environment;
– Sustained attention on to related information and ignoring other stimuli;
– Access memories that aren’t currently active, but that could be relevant to the current focus;
– Shift attention to new information as it arrives.
To focus attention to relevant information is a challenging and relies on CNS ability to ignore stimuli unrelated to the educational process. Acquisition and processing information is physiologically possible for multiple noncompeting stimuli, if those originate from different sources dimensionally but within the same modality. Such ability allows overcoming neuronal refractory period and proper use of selective, alternating and sustained attention tremendously increases volume of educational material during single session.   Simultaneously divided attention is age defined and requires extensive training. Focused attention is essential phenomena for formation of short-term memories, which based on level of emotional response, become stored as long-term memories.
For successful tutelage the knowledge of differences in individual circadian rhythms could be very useful. But most important is to accompany visual-audio presentations of educational material with other sensual stimuli that could be associated with strong emotional response during such presentation. Attention Restoration Theory (ART) drown form this particular phenomena and success of its practical applications is convincing.

References

Allport, A. (1989). “Visual Attention.” In Foundations of Cognitive Science, edited by M. Posner, pp. 631–682. Cambridge Mass.: MIT Press.

Anderson, John R. (2004). Cognitive psychology and its implications (6th ed.). Worth Publishers. p. 519.

Campbell, J. (1986). Winston Churchill’s Afternoon Nap: An Inquiry into the Human Nature of Time. New York: Simon and Schuster.

Cho, J.-Y. (1990). “Attention: Cognitive Science Discoveries and Educational Practice.” Doctoral dissertation, University of Oregon.

Friedman, S. L., K. Klivington, and R. Peterson, eds. (1986). The Brain, Cognition, and Education, pp. 19–119. Orlando, Fla.: Academic Press.

Gregory, R. L. (1987). The Oxford Companion to the Mind. New York: Oxford.

Hynd, G. W., et al. (1991). “Neurobiological Basis of Attention Deficit Hyperactivity Disorder (ADHD).” School Psychology Review 20, 2: 174–186

Hobson, J. A. (1989). Sleep. New York: W. H. Freeman.

Johnson, Addie (2004). Attention: Theory and Practice. United States of America: SAGE Publications. pp. 1–24. ISBN 978-0-7619-2760-0.

Kaplan, R.; Kaplan, S. (1989). The Experience of Nature: A Psychological Perspective. Cambridge University Press.

Livingstone, M. et al. (September 1991). “Physiological and Anatomical Evidence for a Magnocellular Defect in Developmental Dyslexia.” Proceedings of the National Academy of Science 88: 7943–7947.

LeDoux, J., and W. Hirst. (1986). “Attention.” In Mind and Brain: Dialogues in Cognitive Neuroscience, pp. 105–185. New York: Cambridge.

Livingstone, M., et al. (September 1991). “Physiological and Anatomical Evidence for a Magnocellular Defect in Developmental Dyslexia.” Proceedings of the National Academy of Science 88: 7943–7947.

P. MacLean, (1978), “A Mind of Three Minds: Educating the Triune Brain.” In Education and the Brain, edited by J. Chall and A. Mirsky, (Chicago: The National Society for the Study of Education).

McKay Moore Sohlberg, Catherine A. Mateer (1989). Introduction to cognitive rehabilitation: theory and practice. New York: Guilford Press.

Ornstein, R., and P. Ehrlich. (1989). New World, New Mind: Moving Towards Conscious Evolution. New York: Doubleday.

Posner, M. I. & Petersen, S. E. (1990) The attention system of the human brain. Annual Review of Neuroscience 13: 25–42.

Salvucci, D. D.; Taatgen, N. A. (2008). “Threaded Cogition: An integrated theory of concurrent multitasking”. Psychological Review 115: 101–130.

Schank, R. (1990). Tell Me A Story: A New Look at Real and Artifical Memory. New York: Macmillan.

Sylwester, R. (October 1990). “Expanding the Range, Dividing the Task: Educating the Human Brain in an Electronic Society.” Educational Leadership 40: 71–78.

Wolfe, J.M. (1994). “Guided search 2.0: a revised model of visual search”. Psychonomic Bulletin & Review 1 (2): 202–238.

Physioepistemology Centered Evidence-based Education

 

PConcept

 

 

 

 

 

Physioepistemology Centered Evidence-based Education – Placing neuroplasticity in the center of newly developed educational methodologies require use of the  insights from the studying of the brain functions and cognitive processes to investigate educationally inspired questions. More importantly, it changes direction of the neuroscientific approach in education to totally opposite direction: from extracting information from the brain, to delivering information to the brain and assisting in formations of tools this information processed. In contemporary speed of new knowledge discovery, traditional methods of education falling behind in delivery updated increased amount of information. The assessment of acquired knowledge during the educational process becomes available for outsourcing to new technologies, which might exclude human bias it all. Most time consuming part of educational process is time spend on learning new skills. New high effect-size methods are related to effective way to deliver higher level of complex information with decreased time of skill development.

Quantification of Qualitative Creativity (Imagination)

Kinetic changes in willfully induced brain are not necessarily qualitative changes, at same time, quantitative cognitive reattribution of particular areas in the brain not necessarily change quality of conscious experience. Even more, attentional re-contextualization of processed thoughts achieved by training and education can systematically alter neural circuitry associated with a variety of mental and physical states. The ultimate goal of proper educational technique is to initiate the mental acts of clear-minded introspection and observation, variously known as mindfulness, mindful awareness, bare attention, the impartial spectator, etc. in participants. Empirically, the only available tool at this moment to achieve this goal is to direct students to observe and modulate one’s own emotional states. The new quantum paradigm in understanding and controlling educational processes as on individual, as on social levels emerged in recent years. It creates opportunity to study and have practical use of quantitative magnitude of quantum effects in the brain.
Creative force of imagination through integration of practical, analytical and artistic abilities could be quantified and used in development of new educational methods and devices (gadgets), allowing to increase individual abilities of students.



Persuasive intellectual manipulation

Persuasive manipulation is defined as exploitative, abusive, devious and deceptive method to change perception targeted individual or group of individuals and achieve emotional response in the form of expected behavior. Context and motivations of underlying such methods determine direction and goals of influencing agent. There is wide variety of different techniques to achieve the goal of misperception and form disoriented view on reality. Two major distinctions in those techniques are in the number of influenced agents (individual vs. aggregative influences) and direction of guidance (physiological dissociation vs. social-peer pressure). All techniques historically applied and used are complex actions involving multiple subsequent steps and could include one or both distinctive characteristics. In any particular situation, recognition of application of persuasive manipulation by targeted individual is beneficial, because it allowed avoiding possible abuse or exploitation and could be used as highly effective form of education.
Social influence is a conformity of physical phenomena that characterized by responsive reaction to social event by any individual. Such response can be expressed by forming some specific or complex of emotions, formation of opinion, or actions based on a reciprocal behavior. Since social influence was defined as a presentation in a form of a variety of  identification, compliance, or internalization examples by society members, scientifically developed technologies to manipulate of individual perception of reality through social events began to emerge.  Systemization of studies related to all forms of social influence, started form the investigation of “animal magnetism” practiced by Mesmer. The result of it, imagination as an intellectual function involved in influence becomes connected to “magnetic sleep”, which almost seventy years later becomes known as hypnosis. Hypnosis is one of the methods of manipulation and will be reviewed as such below.  Therapeutical use of this technique leads to development of psychoanalysis, which is still practiced in many psychological interventions. With development of behavior technologies, use of social influence in positive context becomes ethically acceptable and widely used in different social environments. Alone with attempts to develop methods useful in medical practice, technology of influencing society through different means had development as well. With advance of informational technology relation and symbiosis of both directions becomes evident. The advancement of social media predisposed application of techniques of intellectual manipulation and elements of cognitive therapies outside for achieving objectives different from  political or therapeutical purposes, but for education in any area of science or art.

 

Ruderal Ambience

ConceptF. Dostoevsky once  wrought: “Every man has some reminiscences which he would not tell to everyone, but only to his friends. He has others which he would not reveal even to his friends, but only to himself, and that in secret. But finally there are still others which a man is even afraid to tell himself, and every decent man has a considerable number of such things stored away. That is, one can even say that the more decent he is, the greater the number of such things in his mind.” (“Notes from Underground”, 1864).
Based on the phenomenon of self-prohibition derived concept of the Ruderal Ambience: as more we lock associated connections in self-prohibited area we are becoming less creative, meaning that process of creating mental blocks in whatever area of social life it could be, lowers imagination and creativity. Those areas of the brain are the Ruderal Ambience. Cummulutaveley, it is the area that excluded from mental processing retrospectively.
Surprisingly, it leads to conclusion that creative part of intellect depends on all topographical areas of the brain and bring part of unconscious parts of mental processing to the table for more detailed exploration.

Physioepistemiology

Physioepistemiology – the branch of natural science that studies processes of obtaining knowledge in self-organizing biological systems, based and wholly relying on dynamism of  the physiological mechanisms of intercellular interactions in response to internal and external environmental changes.