Cognition and Navigational Skills SAC Conference 2016 Laurentian University 1 How Cogni)on Impacts Naviga)onal Skills: Taxonomic vs Schema)c Organiza)on Lauren)an University, Ontario, Canada Sarah Blakely, B.Sc.S., SLP student Shawna Sterner, B.Sc.S., SLP student Mélanie Blais, B.Sc.S., SLP student Manon Robillard, Ph.D., Associate Professor SAC Conference Halifax April 30, 2016 Introduc)on Goal : This study examined the impact of cogniDve skills on young children’s ability to navigate a taxonomic versus schemaDc organizaDon within a speechgeneraDng device (SGD). ALenDon Sustained ALenDon Divided CategorizaDon CogniDve Flexibility Working Memory Fluid Reasoning Taxonomic Schematic NAVIGATION • Children with complex communicaDon needs (CCN) oQen require a speech generaDng device (SGD) in order to help them communicate their wants and needs (e.g., iPad, Dynovox, Aroga, etc) • Dynamic paging enables programming of many symbols onto various pages within the device • Naviga)on is the ability to search and retrieve a word or symbol within the dynamic pages of an SGD
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Cognition and Navigational Skills SAC Conference 2016
Laurentian University 1
How Cogni)on Impacts Naviga)onal Skills:
Taxonomic vs Schema)c Organiza)on Lauren)an University, Ontario, Canada
Sarah Blakely, B.Sc.S., SLP student Shawna Sterner, B.Sc.S., SLP student Mélanie Blais, B.Sc.S., SLP student Manon Robillard, Ph.D., Associate Professor
SAC Conference -‐ Halifax April 30, 2016
Introduc)on Goal: This study examined the impact of cogniDve skills on young children’s
ability to navigate a taxonomic versus schemaDc organizaDon within a speech-‐generaDng device (SGD).
ALenDon Sustained ALenDon Divided
CategorizaDon
CogniDve Flexibility Working Memory Fluid Reasoning
Taxonomic
Schematic
NAVIGATION
• Children with complex communicaDon needs (CCN) oQen require a speech-‐generaDng device (SGD) in order to help them communicate their wants and needs (e.g., iPad, Dynovox, Aroga, etc)
• Dynamic paging enables programming of many symbols onto various pages within the device
• Naviga)on is the ability to search and retrieve a word or symbol within the dynamic pages of an SGD
Cognition and Navigational Skills SAC Conference 2016
Laurentian University 2
ATTENTION
ATTENTION
SUSTAINED
DIVIDED
the ability to concentrate on a task for an extended period
of Dme
the ability to perform various tasks simultaneously
CATEGORIZATION
• CategorizaDon is a cogniDve process by which the brain decides which group a word belongs to (Cohen & Lefebvre, 2005)
• In order to categorize a word (i.e., the ability to classify), one must
first recognize, differenDate and understand the word (Cohen & Lefebvre, 2005)
FLUID REASONING
Fluid reasoning is an important characterisDc that helps people think logically and solve problems in new situaDon
(Gray, Chabris, & Braver, 2003)
“The ability to solve a problem in situa3ons without acquiring knowledge.”
(Robillard et al. 2013)
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Laurentian University 3
COGNITIVE FLEXIBILITY
CogniDve flexibility is an important characterisDc that helps people pursue complex tasks (Ionescu, 2012)
→ MulDtasking → Finding a new soluDon to a problem → CreaDng new knowledge or tools
“The ability to move from one idea / concept to another.”
(Hux & Manasse, 2003)
WORKING MEMORY
Working memory is the ability to maintain and process verbal, visual and spaDal informaDon
on a short term basis
ORGANIZATIONAL METHOD
Vocabulary is organized within a hierarchical categories→(e.g. places, food, people) (Light & Lindsay, 1992; Light et al., 2004).
TAXONOMIC
EXAMPLE
• Nelson (1996) suggests that the retrieval of words within a taxonomic organisaDon layout requires cogniDve skills that are more developed since the words are grouped according to their hierarchical categories
• Without the knowledge of hierarchical categorizaDon, retrieval of words is more challenging (Olin, Reichle, Johnson, and Monn, 2010)
Cognition and Navigational Skills SAC Conference 2016
Laurentian University 4
ORGANIZATIONAL METHOD
The vocabulary is organized based on events or themes (e.g. gefng ready for school, playing outside, eaDng supper) (Light et al. 2004)
In other words, all the vocabulary that is required for a specific event is located
together (Drager & Light, 2006)
SCHEMATIC
EXAMPLE
• According to Nelson (1996), the retrieval of words within a schemaDc organizaDon layout tends to be easier for young children.
Recent studies have confirmed that cogni)on has an impact on the ability to navigate within an SGD (Albert & Robillard, 2015; Robillard, Mayer-‐CriLenden, Roy-‐Charland, Minor-‐Corriveau & Bélanger, 2013; Rondeau, Robillard & Roy-‐Charland, submiLed; Wallace, Hux & Beukelman, 2010).
RECENT STUDIES NAVIGATION & COGNITION
RECENT STUDIES NAVIGATION & COGNITION
Wallace et al. (2010) Robillard et al. (2013)
Goal: examine the influence of cogniDve flexibility on adults with severe brain injury when navigaDng the dynamic
screen’s of AAC systems → Cogni)ve flexibility had an impact
on navigaDon “Cogni3ve flexibility can predict who may or may not need intense training in order
to navigate an AAC device.”
Goal 1: determine which cogniDve factors
impact the ability to navigate an SGD in young children, using a taxonomic grid
→ Sustained aLenDon, CategorizaDon, Fluid reasoning, Working memory
→ Cogni)ve flexibility was not correlated with navigaDon
Goal 2: determine which cogniDve factors could best predict navigaDonal ability using a
• Image (symbol) displayed on a portable easel and was placed in front of the child
• PROMPTING allowed for pracDce porDon
METHOD NAVIGATION-‐ PROCEDURE
Formal naviga)on task • Procedure = IdenDcal to Informal
task, NO PROMPTING!
• Child retrieved 25 target words (symbols)
• Image (symbol) displayed on a portable easel and was placed in front of the child
• Allowed to skip the symbol if unable to find (turn the page on easel)
• Symbol correctly found= 1 point; symbol NOT found= 0
• Percentage of correctly found symbols calculated
= Child’s naviga)onal score
Demonstra)on Child was shown how to: • Navigate from folder
→ folder • Use the different
buLons & icons: • Total Dme: 5-‐10 min
1 2 3
Cognition and Navigational Skills SAC Conference 2016
Laurentian University 8
RESULTS
A`en)on Sustained
CORRELATIONS
Working Memory
Fluid Reasoning
Cogni)ve Flexibility
A`en)on Divided
Categoriza)on
SCHEMATIC TAXONOMIC
RESULTS REGRESSIONS
Can predict navigaDonal success using an SGD programmed with a
TAXONOMIC organizaDon
ALenDon Sustained & Working Memory ALenDon Sustained Age
Can predict navigaDonal success using an SGD programmed with a
SCHEMATIC organizaDon
INTERPRETATION
Cogni)on & taxonomic organiza)on
LINK
These results support those from the study completed by Robillard et al. (2013)
Sustained A`en)on
Working Memory
TAXONOMIC NAVIGATION
Cognition and Navigational Skills SAC Conference 2016
Laurentian University 9
INTERPRETATION
Cogni)on & schema)c organiza)on
• Categoriza)on and divided a`en)on are 2 cogniDve skills that were not necessary in order to successfully navigate a schemaDc organizaDon within an SGD
A child with difficul)es in categoriza)on...
Greater chances of successful naviga)on within a schema)c
organiza)on
INTERPRETATION
Age & Naviga)on
• For both organizaDons, age was NOT the best predicDng factor for successful navigaDon
• Although previous studies (Drager et al., 2004; Light et al.,
2004) demonstrated that age is important for successful navigaDon, cogniDon is MORE important
• This study indicates that a young child’s cogniDve skills are more important than age and should be primarily
considered when trying to predict navigaDonal success
LIMITS
• InterrelaDon of cogniDve factors • DuraDon of sessions • ParDcipants were not idenDfied as having a complex
communicaDon needs (CCN) • MulDple word retrieval (i.e., sequencing) could place more
demands on the working memory system
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FUTURE STUDIES
➔ Children with CCN who require an SGD→ Albert (2015) studied the cogniDve abiliDes involved in navigaDng an SGD for 10 children who have CCN + Only employed a taxonomic organizaDon
➔ Comparing navigaDon skills in a variety of populaDons (congenital and neurological disorders) and ages; using both a taxonomic and schemaDc organizaDon is required
➔ InvesDgaDng the role of cogniDon during more complex navigaDonal tasks (i.e., sequencing) in order to determine the implicaDons on the working memory system is required
CONCLUSION
Clinicians who work with young children that require an AAC system should consider the child’s cogni)ve skills and not only their age in order to properly select an organizaDonal layout
for programming the vocabulary within the device.
REFERENCES
-‐ Albert, A., Robillard, M. (2015) Enfants et jeunes adultes avec besoins complexes en communicaDon et habiletés cogniDves impliquées dans la navigaDon d’une aide à la communicaDon avec sorDe vocale, Actes de la 22e Journée Sciences et Savoirs, hLps://zone.biblio.laurenDan.ca/dspace/handle/10219/2356 -‐ Apple Inc. (2015). Apple. Retrieved from hLp://www.apple.com/ -‐ AssisDveWare. (2015). Proloquo2go [Mobile applicaDon soQware]. Retrieved from hLp://itunes.apple.com/ -‐ Cohen, H., & Lefebvre, C. (Eds.). (2005). Handbook of Categoriza;on in Cogni;ve Science. The Hague: Elsevier. -‐ Drager et al. (2004). Learning of dynamic display AAC technologies by typically developing 3-‐year-‐olds: Effect of different layouts and menu approaches. Journal of Speech, Language, and Hearing Research, 47, 1133–1148. -‐ Drager, K. D., & Light, J. C. (2006). Designing dynamic display AAC systems for young children with complex communicaDon needs. Perspec;ves on Augmenta;ve and Alterna;ve Communica;on, 15, 3 – 7. -‐ Gray, J. R., Chabris, C. F., & Braver,T. S. (2003). Neural mechanisms of general uid intelligence. Nature Neuroscience, 6, 316–322. doi: 10.1038/nn1014 -‐ Hux, K., & Manasse, N. (2003). Assessment and treatment of cogniDve-‐communicaDon impairments. In K. Hux (Ed.), Assis;ng survivors of trauma;c brain injury (pp. 93–133). AusDn, TX: ProEd. -‐ Ionescu, T. (2012). Exploring the nature of cogniDve flexibility. New Ideas in Psychology, 30(2), 190-200. doi :10.1016/j.newideapsych.2011.11.001 -‐ Light, J., & Lindsay, P. (1992). Message encoding techniques in augmentaDve communicaDon systems: The recall performances of nonspeaking physically disabled adults. Journal of Speech and Hearing Research, 35, 853 – 864. -‐ Light, J. C., Drager, K. D. R., & Nemser, J. G. (2004). Enhancing the appeal of AAC technologies for young children: Lessons from the toy manufacturers. Augmenta;ve and Alterna;ve Communica;on, 20,137-‐149. -‐ Nelson, K. (1996). Language in cogni;ve development: Emergence of the mediated mind. Cambridge: Cambridge University Press. -‐ Olin, A. R., Reichle, J., Johnson, L., & Monn, E. (2010). Examining dynamic visual scene displays: ImplicaDons for arranging and teaching symbol selecDon. American Journal of Speech-‐Language Pathology, 19(4), 284-‐297. doi: 10.1044/1058-‐0360 -‐ Robillard, M., Mayer-‐CriLenden, C., Roy-‐Charland, A., Minor-‐Corriveau, M., & Bélanger, R. (2013). Exploring the impact of cogniDon on young children's ability to navigate a speech-‐generaDng device. Augmenta;ve and Alterna;ve Communica;on, 29(4), 347-‐359. doi.org/10.3109/07434618.2013.849754 -‐ Roid, G. H., Miller, L. J., Pomplun, M., & Koch, C. (2013). Leiter Interna;onal Performance Scale, Third Edi;on. Wood Dale, IL : StoelDng Co. -‐ Rondeau, S., & Robillard, M. (submiLed). The role of cogniDon on navigaDonal skills of children and adolescents with auDsm spectrum disorders. -‐ Wallace, S. E., Hux, K., & Beukelman, D. R. (2010). NavigaDon of a dynamic screen AAC interface by survivors of severe traumaDc brain injury. Augmenta;ve and Alterna;ve Communica;on, 26(4), 242-‐254.