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Articles for Speech Shadowing

https://journals.sagepub.com/doi/full/10.1111/1467-9280.02439#abstract https://www.isca-speech.org/archive/interspeech_2008/i08_2807.html

Cognitive psychology
Perception
Visual perception Object recognition Face recognition Pattern recognition
Attention
Memory
Aging and memory Emotional memory Learning Long-term memory
Metacognition
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Metalanguage
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v t e

Attention restoration theory (ART) asserts that people can concentrate better after spending time in nature, or even looking at scenes of nature. Natural environments abound with "soft fascinations" which a person can reflect upon in "effortless attention", such as clouds moving across the sky, leaves rustling in a breeze or water bubbling over rocks in a stream. Philosophically, nature has long been seen as a source of peace and energy, yet the scientific community started rigorous testing only as recently as the 1990's^[1] which has allowed scientific and accurate comments to be made about if nature has a restorative attribute.

The theory was developed by Rachel and Stephen Kaplan in the 1980s in their book The experience of nature: A psychological perspective,^[2][3][4] and has since been found by others to hold true in medical outcomes as well as intellectual task attention, as described below. Berman et al. discuss the foundation of the attention restoration theory (ART). "ART is based on past research showing the separation of attention into two components: involuntary attention, where attention is captured by inherently intriguing or important stimuli, and voluntary or directed attention, where attention is directed by cognitive-control processes." ^[5]

Restorative environments

Restoration or psychological restoration in the environmental psychology field is the recovery of depleted resources which can be psychological (attention and emotions), physiological (stress) and/or social. This results from interaction with a restorative environment to change negative states to positive ones.^[6][7] Psychological restoration can be described as the capability of perception of restoration, as an observer can perceive the properties of an environment that relieves the mental fatigue and stress in a person.^[8]

The Kaplans describes a series of characteristics that an environment must have to be restorative. Fascination: the ability of an environment to generate awe in people; the amount of awe can give the directed attention a rest as the involuntary attention appears in its place. Being away: a feeling that can be objective or subjective in form, e.g. a person can be far away from a location or can let his or her mind go from everyday life and worries. Extension: the connection between each element found in an environment; the feeling of being able to travel through the environment in order to look for the information it provides. Compatibility: characteristics found in an environment that meet the preferences and goals of a person.^[2]

Mental fatigue

See also:Directed attention fatigue; Occupational burnout; Default mode network

Human beings are constantly craving and evaluating information. In general we are quite skilled with evaluating and discerning information from environmental stimuli^[9]. The function of directed attention is to prioritize stimulus from the environment and effectively ignore irrelevant information.^[10] The effectiveness of attention will diminish over time with constant use^[1]. This world-wide, everyday phenomenon is known as mental fatigue, which increases the difficulty of discriminating environmental stimulus and prioritizing relevant information.^[11] The weakening of directed attention leads to being increasingly more distracted. There are six main areas that are affected during mental fatigue: input, thinking, behavior, executive functioning, emotions and social interactions.^[12]

Goal-directed attention is affected the most by mental fatigue, while stimulus-driven attention is typically minimally affected or not at all affected by mental fatigue. ^[1] This results typically results in being more easily distracted and less flexible, making noticeable or important stimuli even more powerful. Human behavior steadily becomes increasingly linked to environmental stimuli. Mental fatigue is also part of Occupational burnout, where cognitively, we distance ourselves or check out from our work because our goal-directed attention capacity has decreased.

Aesthetic, yet unimportant or secondary, stimuli can prove effective in combating mental fatigue. Attention restoration theory claims that looking at natural landscapes, such as beaches, forest or mountain landscapes will allow for your mind to sit in the default mode network, to wander freely and thereby relaxing the stringent focus of everyday life. The mind-wandering provided in the default mode network will allow for the mind to restore its directed attention capacities.^[1]

Directed attention

Attention restoration theory describes various possible human states of attention:

• Directed attention
• Directed attention fatigue
• Effortless attention
• Restored attention

Tasks that require mental effort draw upon "directed attention". People must expend effort to achieve focus, to delay expression of inappropriate emotions or actions, and to inhibit distractions. That is, they must concentrate on the higher task, avoiding distractions. Performing the actual task also requires other knowledge and skills.

In Peopleware, a book on office work, Tom DeMarco and Tim Lister^[13] report that in an office environment, workers may take 15 minutes to achieve this state of flow in their concentration, and that it can be destroyed in a moment by an interruption, such as a telephone call.

The task may be fascinating so that it allows "effortless attention", or may have sufficient scope to sustain interaction without boredom, or may simply be more compatible with a person's interests. However, after a period of directed attention, people begin to suffer "directed attention fatigue". They become distracted, irritable, and impatient. They become less effective in performing their tasks.

Attention may be "restored" by changing to a different kind of task that uses different parts of the brain,^[3][14] as in the familiar idiom "a change is as good as a rest". Alternatively, exposure to natural environments and wilderness has psychological benefits including attention restoration.

Nature has an abundance of fascinating objects. "Soft fascinations" such as clouds in the sky or leaves rustling in a breeze, gain our attention relatively effortlessly and are compatible with our wants and needs. This is in comparison with snakes and spiders, which may gain our attention out of fear.^[15] The biophilia hypothesis argues that people are instinctively enthusiastic about nature, and both Fuller et al.^[16] and Irvine et al.^[17] suggests that the positive psychological effect increases as the perceived biodiversity of the landscape increases.

After spending some time of effortless attention with soft fascinations and removed from their day-to-day tasks, people may have a chance to reflect. This brings a "restorative" benefit which thus enables further attention.

Stress reduction

After medical surgery, patients resting in rooms overlooking trees recovered better than those in rooms with only a view of a brick wall.^[18] They experienced fewer complications from the surgery, recovered faster, and asked for weaker painkiller drugs. Similarly, natural scenes can reduce stress before an event.^[19]

Women with breast cancer who walked in a park, watched birds, or tended flowers, achieved better attention after surgery.^[14] Merely keeping sight of natural features improves self-discipline in inner-city girls.^[20] Children in New York State were less stressed by adversity when they lived in rural areas.^[21] Stress in college examinations was similarly reduced by viewing natural scenes.^[22] Viewing scenes of urban streets and artifacts excluding nature did not achieve any stress reduction, in a similar study upon workers viewing a film about industrial accidents.

Taking breaks outside in settings that contained some nature has been shown to reduce stress,^[23] leaving nurses feeling refreshed, relaxed, and energized upon return to work.

See also

• Attention span
• Attentional retraining
• Ecopsychology
• Environmental psychology
• Green exercise
• Nature deficit disorder
• Outdoor education

References

1. Boksem, Maarten A. S.; Meijman, Theo F.; Lorist, Monicque M. (2005-09-01). "Effects of mental fatigue on attention: An ERP study". Cognitive Brain Research. 25 (1): 107–116. doi:10.1016/j.cogbrainres.2005.04.011. ISSN 0926-6410. PMID 15913965.
2. Kaplan, R.; Kaplan, S. (1989). The Experience of Nature: A Psychological Perspective. Cambridge University Press. ISBN 978-0-521-34139-4.
3. The restorative benefits of nature: Toward an integrative framework. By Kaplan S. in Journal of Environmental Psychology 1995, v.15, pp169-182.
4. Bell, P.A.; Greene, T.C.; Fisher, J.D. (2001). Environmental Psychology, Fifth Edition. Harcourt College Publishers. ISBN 978-0-8058-6088-7.
5. Berman, Mare G et al. "The Cognitive Benefits of Interacting with Nature", Psychological Science, Vol 19. Num 12. Michigan, 28 May 2008. Retrieved on 2012-09-16.
6. Hartig, T. (2004). Restorative environments. In C. Spielberger (Ed.), Encyclopedia of applied psychology (pp. 273–279). San Diego: Academic.
7. Hartig, T. (2011). Issues in restorative environments research: Matters of measurement. In B. Fernández, C. Hidalgo, C. Salvador & M. J. Martos (Eds.), Psicología Ambiental 2011: Entre los estudios urbanos y el análisis de la sostenibilidad (pp. 41-66). Almería, Spain: University of Almeria & the Spanish Association of Environmental Psychology.
8. Coles, R., & Keshavarz, N. (2006). The restorative potential of local urban environments-The impact of green infrastructure on the health and well being of local residents. In K. Nilsson & B. Nielsen (Eds.), Urban forestry for human health and wellbeing. Documento presentado en la reunión COST-E39 Research Conference y ASEM Second Symposium on Urban Forestry, Copenhagen, Dinamarca.
9. Kaplan, Rachel; Kaplan, Stephen (August 2008). "Bringing Out the Best in People: a Psychological Perspective". Conservation Biology. 22 (4): 826–829. doi:10.1111/j.1523-1739.2008.01010.x. hdl:2027.42/71786. ISSN 0888-8892. PMID 18786098. S2CID 2036023.
10. Neurobiology of attention. Itti, Laurent., Rees, Geraint., Tsotsos, John K. Amsterdam: Elsevier Academic Press. 2005. ISBN 978-0-12-375731-9. OCLC 58724292.
11. Boksem, Maarten A.S.; Meijman, Theo F.; Lorist, Monicque M. (September 2005). "Effects of mental fatigue on attention: An ERP study". Cognitive Brain Research. 25 (1): 107–116. doi:10.1016/j.cogbrainres.2005.04.011. ISSN 0926-6410. PMID 15913965.
12. Kaplan, Stephen; Berman, Marc G. (January 2010). "Directed Attention as a Common Resource for Executive Functioning and Self-Regulation". Perspectives on Psychological Science. 5 (1): 43–57. doi:10.1177/1745691609356784. ISSN 1745-6916. PMID 26162062. S2CID 4992335.
13. DeMarco, Tom; Lister, Tim (1988). Peopleware: Productive Projects and Teams. John Wiley and Sons. ISBN 978-0-396-08808-0.
14. Attention Restoration Theory: Empirical Work and Practical Applications, by Cimprich B. (2007)
15. Ulrich, R.S.; Simons, R.F.; Losito, B.D.; Fiorito, E.; Miles, M.A.; Zelson, M. Stress recovery during exposure to natural and urban environments. J. Environ. Psychol. 1991, 11, 201-230.
16. Fuller, R. A., Irvine, K. N., Devine-Wright, P., Warren, P. H., & Gaston, K. J. Psychological benefits of greenspace increase with biodiversity., Biology letters, 3(4), 390-394.
17. Irvine, K. N., Warber, S. L., Devine-Wright, P., & Gaston, K. J. (2013) Understanding urban green space as a health resource: A qualitative comparison of visit motivation and derived effects among park users in Sheffield International Journal of Environmental Research and Public Health, 10(1), 417-442.
18. Ulrich R. 1984
19. Ulrich R. 1986
20. Taylor A.F., Kuo F.E., Sullivan W.C. (2001). Views of Nature and Self Discipline: Evidence from Inner City Children Archived 2008-11-20 at the Wayback Machine in Journal of Environmental Psychology (2001), vol. 21.
21. Wells, Nancy M.; Evans, G.W. (2003). "Nearby Nature: A Buffer of Life Stress Among Rural Children" (PDF). Environment and Behavior. 35 (3): 311–330. doi:10.1177/0013916503035003001. S2CID 13624627. Archived from the original (PDF) on 2008-11-20. Retrieved 2009-09-14.
22. Ulrich R. 1979
23. Irvine, K.N. Work breaks & well-being: The effect of nature on hospital nurses, Conference proceedings of the 131st Annual Meeting (November 15–19, 2003) of APHA

Category:Attention Category:Behavioral concepts

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Technique of speech repetition

Experimental applications

The speech shadowing technique is used in dichotic listening tests. The first one to apply this technique was E. Colin Cherry in 1953. During dichotic listening tests, subjects are presented with two different messages, one in their right ear and one in their left. The participants are then asked to focus on one of the two messages, as this is where the speech shadowing technique is used. Participants are instructed to shadow the attended message by repeating it out loud with a delay of a few seconds between hearing a word and repeating the word. The speech shadowing technique is significant for these experiments because it ensures that the subjects are attending to the desired message. Various other stimuli are then presented to the other ear, and subjects are afterwards queried on what they can recall from the other message.

Through the use of speech shadowing, attention, specifically divided attention has also been studied and tested. Participants who were tasked with speech shadowing words and phrases from a speaker while in a simulated driving experience suggested that our attention is impaired while speaking and/or listening while performing another cognitively active task, such as driving. These experiments with speech shadowing strongly suggest a relationship between location of sound and the amount of attention speech shadowing requires. If the words or phrases come from an area not at the target for attention, for example, from beside the driver, speech shadowing tends to be more distracting. On the other hand, if the words or phrases come from the general direction of the main target it is easier to perform speech shadowing accurately and drive safely. ^[1] This is mainly because the technique of shadowing requires more cognitively than simple listening and speaking.

Language Learning

When learning a foreign language, shadowing and proven to be an effective way of practicing listening and speaking with the intent to improve the learners’ ability.^[2] Because of the nature of speech shadowing, it has proven difficult to come to a consensus of what an accurate scoring system would look like. The learner would often slur words and skip sounds all together in order to keep up with the pace of the words or phrases that they are to repeat. Automatic scores using alignment-based and clustering-based scoring techniques, improve learning of a foreign language through the practice of speech shadowing.^[2]  

Language Interpretation

Interpreters also use the technique known as speech shadowing.^[3] This has been a technique long used but has some minor differences from speech shadowing in other contexts, such as for language learning. The main differences are first, the shadowing occurs from one language and into another. The second reason is that not all words are literally translated. This is more accurately what a translator would do, but an interpreter puts emphasis on the semantics of the translation.^[3] Speech shadowing is incredibly important for interpreters, because if they are to wait for the person speaking to pause for them to interpret, then they would be completely under control of the speaker for pace. The listeners would end up only getting large amounts of information rushed in between pauses, instead of a steady, conversation-like flow.

See also

• Cohort model
• Mirror neurons
• Psycholinguistics

Footnotes

1. Spence, Charles; Read, Liliana (May 2003). "Speech Shadowing While Driving". Psychological Science. 14 (3): 251–256. doi:10.1111/1467-9280.02439. ISSN 0956-7976. PMID 12741749. S2CID 37071908.
2. Martinsen, Rob; Montgomery, Cherice; Willardson, Véronique (2017-11-24). "The Effectiveness of Video-Based Shadowing and Tracking Pronunciation Exercises for Foreign Language Learners". Foreign Language Annals. 50 (4): 661–680. doi:10.1111/flan.12306. ISSN 0015-718X.
3. Lambert, Sylvie (2002-09-30). "Shadowing". Meta. 37 (2): 263–273. doi:10.7202/003378ar. ISSN 1492-1421.

Bibliography

• Bailly, G. (2002). "Close shadowing natural versus synthetic speech". International Journal of Speech Technology. 6 (1): 11–19. doi:10.1023/A:1021091720511. S2CID 16968458.
• Cherry, E.Colin (1953). "Some Experiments on the Recognition of Speech, with One and with Two Ears". The Journal of the Acoustical Society of America. 25 (5): 975–979. Bibcode:1953ASAJ...25..975C. doi:10.1121/1.1907229. hdl:11858/00-001M-0000-002A-F750-3.
• Marslen-Wilson, William; Tyler, Lorraine Komisarjevsky (1980). "The temporal structure of spoken language understanding". Cognition. 8 (1): 1–71. CiteSeerX 10.1.1.299.7676. doi:10.1016/0010-0277(80)90015-3. PMID 7363578. S2CID 11708426.
• Moray, Neville (1959). "Attention in dichotic listening: Affective cues and the influence of instructions". Quarterly Journal of Experimental Psychology. 11 (1): 56–60. doi:10.1080/17470215908416289. S2CID 144324766.

Category:Phonetics Category:Cognition Category:Hearing Category:Auditory perception Category:Psycholinguistics Category:Psychology experiments