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Eastern Illinois UniversityThe Keep
Masters Theses Student Theses & Publications
1-1-2011
Vocabulary Acquisition Through Fast Mapping InChildren With AutismLynne BarcusEastern Illinois UniversityThis research is a product of the graduate program in Communication Disorders and Sciences at EasternIllinois University. Find out more about the program.
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Recommended CitationBarcus, Lynne, "Vocabulary Acquisition Through Fast Mapping In Children With Autism" (2011). Masters Theses. 96.http://thekeep.eiu.edu/theses/96
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Running head: FAST MAPPING IN CHILDREN WITH AUTISM
Vocabulary Acquisition through Fast Mapping in Children with Autism
Lynne Barcus, B.S.
THESIS SUBMITTED IN PARTIAL FULFILLMENT OF THE REQUIREMENTS
FOR THE DEGREE OF
MASTER OF SCIENCE
IN THE DEPARTMENT OF COMMUNICATION DISORDERS AND SCIENCES, EASTERN ILLINOIS UNIVERSITY
CHARLESTON, ILLINOIS
2011
I HEREBY RECOMMEND THAT THIS THESIS BE ACCEPTED AS FULFILLING THIS PART OF THE GRADUATE DEGREE CITED ABOVE
DATE
DATE
\ 5-&LL DATE
£3-/), DATE SIS COMMITTEE MEMBER - TOm C. CHAMBERS, M.S.
2 FAST MAPPING IN CHILDREN WITH AUTISM
Acknowledgements
I cannot find words to express my graditude to my thesis committee and
department chair. This thesis would not have been possible without your support and
encouragement. Thank you, Dr. Veale, for sharing your know ledge of research and
autism. Thank you for sacrificing your time to ensure the quality of my research. I have
learned a great amount through your mentorship, and I will be forever grateful. I would
also like to the Dr. Wilson and Mrs. Chambers. Thank you for your input on the research
design and written document. I appreciate so much your suggestions and encouragement
throughout this expereince. Dr. Richard, I'm grateful for your support and for the
recommendations you provided in order to finalize and place the finishing touches on my
research document.
I would like to thank: all of the subjects and their families for their participation.
Thank: you for your time and support of this reserach project.
Finally, I would like to thank: my family. To my husband, Bradlee, thank: you for
your love and encouragement throughout this project. Thank: you for allowing me to take
the time to have this research experience. To my mom and dad, thank you for always
encouraging me to achieve more and learn more. Thank you for your guidance and love
throughout my life and throughout my graduate career.
3 FAST MAPPING IN CHILDREN WITH AUTISM
Abstract
Fast mapping is a cognitive process that facilitates acquisition of new vocabulary
through brief exposures to words and their referents. Research has shown that typically
developing children and those with Down syndrome, specific language impairment, or
mental impairment acquire new vocabulary through fast mapping, although with different
levels of success. This study explored the effectiveness of fast mapping to facilitate
vocabulary acquisition in children with autism. A multiple baseline across subjects
design was employed with four children with autism. After a pre-test to determine which
food and animal objects were unfamiliar to each subject, a series of fast mapping trials
was presented. Each trial involved presentation of one unfamiliar and two familiar
objects. Probes were conducted for all items that had been fast mapped at intervals of
one hour and one day following the last treatment trial to evaluate retention. Data were
analyzed though the application of visual inspection and descriptive statistics. Treatment
results indicated that fast mapping was an effective method to facilitate vocabulary
acquisition across all four children with autism.
4 FAST MAPPING IN CHILDREN WITH AUTISM
Table of Contents Chapter Page I Introduction............................................................................ 6
Communication..........................................................................7
Fast Mapping .............................................................................8
II Literature Review....................................................................10
Fast Mapping in Different Populations ............................................. 11
Fast Mapping in Children with Autism ............................................. 15
Presentation of Fast Mapping ......................................................... 18
Length of Retention................................................................... 19
The Present Study ..................................................................... 19
III Methodology...........................................................................21
Participants..............................................................................21
Materials .................................................................................22
Procedures ...................................... " ......................................22
Data Management. ....................................................................24
IV Results ... "' ........ '" '" "' ...... "' .... '" '" "' .. "' .. "' .. "' ...... "' .. "' .. "' .... "' .. '" '" "' ........ "' .. '" '" "' .... "' .... "' ................. '" ..........25
V Discussion", '" '" "' ............ '" '" '" "' .. '" '" '" '" '" '" '" '" '" '" '" '" "' .. '" "' .... '" '" '" '" '" '" '" '" '" "' .. '" "' .. '" '" "' .... '" '" '" '" '" '" '" ... '" '" "' .. '" '" "' .. '" '" '" '" '" '" .29
Summary of Results ...................................................................29
Relation to Past Research .............................................................31
Clinical Implications ..................................................................32
Strengths and Limitations ............................................................ 33
Future Research ........................................................................34
Conclusions ............................................................................35
References. '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" "' .. "' .. "' .. '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" '" "' .. '" '" '" '" '" "' .. '" '" '" "' .. "' .. "' .... '" ...... '" ...36
Appendix A ...........................................................................40
Appendix -B "' .. '" '" "' .. '" '" '" '" '" "' .. '" '" "' .. '" '" '" '" '" '" '" '" '" '" '" "' .. '" '" '" '" '" '" "' .. '" "' .. '" '" "' •• '" '" "' ............. '" '" "' .... "' ...... '" '" "' .....43
5 FAST MAPPING IN CHILDREN WITH AUTISM
List of Figures
Figure 1 Data for Participant 1 .........................................................25
Figure 2 Data for Participant 2 ...........................................................26
Figure 3 Data for Participant 3...........................................................27
Figure 4 Datafor Participant 4......................................................... .28
6 FAST MAPPING IN CHILDREN WITH AUTISM
Chapter 1
Introduction
Autism is a disorder that affects an increasing number of children and their
families. The Centers for Disease Control (2010) suggests that the incidence may be as
high as 1 in 110. The challenges associated with this condition impact nearly every
aspect of their lives. Raising a child with autism requires families to adapt their lifestyles
to meet the needs of their child. The child's thoughts and ideas are unique and often
interfere with their ability to relate to the world and build relationships. These children
have difficulty learning to talk and play. They prefer to be alone rather than with other
people, including members of their own family. Anxiety and extreme behaviors
sometimes overshadow the child's ability to think and learn. Difficulty filtering out
sensory input causes difficulty with focus and attention.
While the condition was misunderstood for decades, autism is now known to be
a neurological, biochemical disorder (Bailey, Phillips, & Rutter, 1996; Richard, 1994).
Research has not yetidentified the exact causes of autism; however, scientists believe
that the condition results from a combination of both genetic and environmental agents
(McCandless,2007). Abnormal genes are turned on by environmental influences,
leading to impaired brain physiology that affects social interaction, communication, and
behavior. The Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition
(DSM-IV-TR) (American Psychiatric Association, 2000) suggests that the following
symptoms must be present to yield a diagnosis of autism: qualitative impairment in social
interaction; qualitative impairment in communication; restricted, repetitive and
7 FAST MAPPING IN CHILDREN WITH AUTISM
stereotyped patterns of behavior, interests, and activities; and delays or abnormal
functioning with onset prior to age three years.
Autism occurs on a continuum from mild to severe and can co-occur with other
disorders. There is a high incidence of mental impairment in the autism population,
which also occurs on a continuum from mild to severe. Mental impairment affects the
ability to process and learn new information, including language (Richard & Hoge, 1999).
Children who present autism and mental impairment concomitantly require intensive
intervention from an early age.
Speech-language pathologists are concerned with most aspects of development
for children with autism spectrum disorders. They address symptoms in each of the core
domains of language, social skills, and behavior. One of their primary concerns is
encouraging the child with autism to communicate through verbal language, conventional
gestures, augmentative communication, sign language, or a combination of these
modalities. Speech-language pathologists also address social pragmatic aspects of
communication, including teaching children with autism to interact more successfully
with others.
Communication
All people with autism present significant communication challenges. Higher
functioning individuals with autism struggle with language development early on, but
manage to learn to compose sentences and use them to converse with others. These
children use language as a tool for learning and socializing (Venter, Lord, & Schopler,
1992). Children who fall at the midpoint of the autism spectrum may speak some words
or sentences, but do not know how to use language to communicate effectively. They
8 FAST MAPPING IN CHILDREN WITH AUTISM
can improve their communication skills with intensive intervention. Low functioning
children with autism have little to no language, and are often resistant to learning (Liss, et
aI.,2001).
Speech-language pathologists, parents, and educators must identify and apply
strategies that address the unique communication needs of each learner with autism.
While there are numerous pragmatic, semantic, syntactic, and morphological goals that
might be targeted, a primary goal for all individuals with autism is vocabulary acquisition.
All communicators need to associate words with their referents in order to understand
what is being said or read to them. Understanding words typically precedes their
production (Wetherby, Watt, Morgan, & Shumway, 2007). Addressing vocabulary
development is a primary semantic target for children with autism.
Fast Mapping
Fast mapping is an approach to vocabulary acquisition. Fast mapping is the
cognitive process of acquiring novel vocabulary though a brief exposure to the word and
its referent (McLaughlin, 1998). Typically developing children acquire vocabulary
through fast mapping. For children who do not naturally develop the ability to fast map,
assistance may be needed to facilitate the process. Visual and auditory stimuli are paired
in order to provide a concrete learning experience. Fast mapping is usually facilitated
with real objects or pictures.
Fast mapping has been successful in several populations, including typically
developing children, children with Down syndrome, and children with mental imp aim lent.
There has been little research addressing fast mapping in the autism population. Given
the prevalence of vocabulary deficits in this population, it is important to understand how
9 FAST MAPPING IN CHILDREN WITH AUTISM
vocabulary can be learned to develop effective methods of vocabulary acquisition. The
use of fast mapping has potential as a vocabulary development tool for children with
autism.
10 FAST MAPPING IN CHILDREN WITH AUTISM
Chapter 2
Review of the Literature
V ocabulary development in neurotypical children is well documented. While
there is considerable variation in early development, most toddlers have acquired
between ten and fifty words by the time they are 18 months of age (Nelson, 1973). From
this point forward, the vocabulary acquisition of preschoolers is nothing short of amazing.
By the age of two years, their lexicons have expanded to about 200-300 words; and by
the age of three years, children have a vocabulary of 900-1000 words (McLaughlin,
1998; Owens, 2004). They enter kindergarten with the ability to understand and/or use
over 2,000 words. One of the primary processes by which young children acquire their
vast vocabularies is fast mapping.
Fast mapping is a cognitive mechanism that facilitates early understanding of
word meaning following brief exposures to words and their referents (Carey & Bartlett,
1978). Fast mapping occurs when a child is exposed to an unknown word and infers its
meaning given hislherestablished knowledge. For example, if a child is presented with
an unfamiliar word, rhinoceros, while looking at a book, slhe can fast map the word by
inferring that the unknown animal must be the rhinoceros. In natural contexts, children
as young as 13 months of age acquire new vocabulary through fast mapping (Kay
Raining Bird, & Chapman, 1998; Schafer & Plunkett, 1998; Woodward, Markman, &
Fitzsimmons, 1994). Repeated exposure to unfamiliar items stimulates acquisition of
many new words at once (Gershkoff-Stowe & Hahn, 2007). Estimates suggest that most
preschoolers acquire two to five new words per day, many of them through fast mapping
(pease & Berko Gleason, 1985).
11 FAST MAPPING IN CHILDREN WITH AUTISM
Extended mapping is a secondary cognitive process that also contributes to
vocabulary development. It requires more exposures to new words than fast mapping,
and leads to development of a deeper comprehension of word meaning (McLaughlin,
1998). Extended mapping allows children to functionally use the vocabulary they have
acquired.
Fast Mapping in Different Populations
Typical development Several studies have addressed fast mapping across
different populations. Carey and Bartlett (1978) looked at fast mapping in typically
developing children. They required children to retrieve an object from a field of two, one
familiar and one unfamiliar. They found that through brief exposure and contrast with a
known object, children fast mapped unfamiliar words. Children were assessed one week
later in a different context and were still able to prove knowledge of the fast mapped
words. Results of other studies support Carey and Bartlett's findings (Gershkoff-Stowe
& Hahn, 2007; Heibeck & Markman, 1985).
Heibeck and Markman (1985) completed a similar study in which three lexical
domains were assessed: color, shape, and texture. Children were assessed for retention of
unfamiliar words in the same session in which they were originally presented. Color,
shape, and texture were assessed as follows: "Do you see those two books in the corner?
Could you bring me the chartreuse one, not the red one, the chartreuse one?" To assess
comprehension, children were instructed to identify the target item when paired with
three familiar and three unfamiliar items. These researchers found that in typically
developing children ages 3:0 to 4:8, fast mapping was successful. The participants
comprehended more color and shape words than texture words. Fast mapping had a
12 FAST MAPPING IN CHILDREN WITH AUTISM
greater impact when children knew some words in the same category as the unfamiliar
word.
Research suggests that fast mapping is successful in typically developing children,
as well (Carey & Bartlett, 1978; Heibeck & Markman, 1985). New vocabulary is fast
mapped and retained by typically developing children. Fast mapping seems to be more
successful with more concrete vocabulary, such as nouns or descriptors, including color
and shape (Heibeck & Markman, 1985).
Cognitive impairment Fast mapping in children with mental impairment was
examined through successive and concurrent introduction of items (Wilkinson & Green,
1998). A computer-based approach was used rather than physical objects. Participants
included individuals ages 5:1 to 22:0 who had been diagnosed with moderate to severe
mental impairment. In the concurrent introduction condition, two new words were
introduced in each of the first and second sessions, and were then tested for acquisition in
the last session. Subjects were provided twelve exposures for each word. In the
successive exposure condition, one word was presented for fast mapping during the first
session, and two words (the word from the first session and a new word) were presented
for sessions two and three. Learning was tested three days later. The first word was
presented 18 times and the second word six times in a modified fast mapping trial.
Successive introduction proved to be equal or more successful than concurrent
introduction. Eight out of ten individuals successfully fast mapped two unfamiliar words
when successive introduction was used. Individuals with little expressive language were
able to benefit from fast mapping via this approach (Wilkinson & Green, 1998). In a
follow-up study by Wilkinson (2005), learning was significantly better following the
13 FAST MAPPING IN CHILDREN WITH AUTISM
successive introduction procedure for the typically developing control group; however,
for individuals with cognitive impairment, there was no statistical difference between the
concurrent and successive introduction conditions. Receptive vocabulary acquisition is
challenging for children with significant cognitive impairment. Some participants with
receptive age estimates below 60 months did not demonstrate learning under either
condition. Results also suggested that children in the autism spectrum may learn better
through concurrent presentation. This research indicated that children with cognitive
impairment were successful at fast mapping, but that this was not necessarily leading to
learning new vocabulary. This implication was supported in later research by Wilkinson
(2007) who found that initial fast mapping was successful, but that retention was poor in
children with cognitive impairment.
Down syndrome. Fast mapping studies have also been done with children who
present with Down syndrome. Chapman, Kay-Raining Bird, and Schwartz (1990)
compared the performance of adolescents with Down syndrome and children with typical
language development on a fast mapping task. Individuals with Down syndrome were
ages 5:6 to 20:6, while the typically developing children were 2:0 to 6:0 years of age.
The two groups were matched for nonverbal mental age. Participants were exposed to
target words through a hiding activity. They were instructed to place an object in or
under a specified hiding place. Objects included a pen, a spoon, and two of three novel
objects. The object to be fast mapped was one of the novel objects presented. The fast
mapped object was named using a nonsense word, koob, and was presented as the last
object to be hidden.
14 FAST MAPPING IN CHILDREN WITH AUTISM
To assess comprehension, four objects were presented. These included the three
novel objects from the hiding task and an additional novel object. These objects were not
hidden. The experimenter instructed the children to give her the objects requested. After
an hour, the children were tested for retention. Both groups passed the exposure task
when children were asked to, "Hide the koob." For comprehension, older children (16-20
years) with Down syndrome performed significantly better than the 12 - 16 year old
group. Sixty-two percent of the younger group passed the comprehension task, while
100% of the older group passed. An expressive measure was also obtained by having the
experimenter hold up the objects and ask the child to name them. At least two phonemes
of the word koob were produced by 40% of children with Down syndrome and 48% of
the typically developing group. While research indicates that fast mapping is successful
in adolescents with Down syndrome, it appears that more success is achieved with older
adolescents. Later research examined the effects of additional supports on the success
of fast mapping in children with Down syndrome.
Specific language impairment Another population in which fast mapping has
been evaluated in is individuals with specific language impairment (SLI). Alt, Plante,
and Creusere (2004) studied "a) fast-mapping the phonetic strings that represent novel
lexical labels, b) fast-mapping semantic features associated with objects and actions
represented by novel lexical labels, and c) the relative difficulty of mapping phonetic and
semantic features for objects (nouns) and actions (verbs)." Participants in this study
included children ages 4:0 to 6:5. One group was composed of children with SLI, while
the other group included children with typical language development. Objects were
introduced and knowledge was assessed through a computer program. Objects were
15 FAST MAPPING IN CHILDREN WITH AUTISM
presented by a creature figure; the children clicked a smiling creature or a crying creature
to answer if the response was correct or inconect. In the fast-mapping context, fewer
features were recognized by the SLI group than children with typical language
development for both objects and verbs. Results from this study were supported by
subsequent research by Alt and Plante (2006) in which children with SLI performed
poorly when mapping lexical labels and nonverbal semantic features during a fast
mapping task. Research by Gray (2005) provided additional support for the finding that
children with SLI have difficulty with words learning during fast mapping tasks. Results
from that study indicated that children with SLI had difficulty forming phonological
representations and phonological-semantic links for word learning.
Fast Mapping in Children with Autism
A small number of studies have addressed fast mapping in children with autism.
McDuffie, Yoder, and Stone (2006) investigated whether fast-mapping mediates the
relationship between attention and vocabulary size in a group of 29 children diagnosed
with autism spectrum disorders. The children were ages 24 to 46 months of age. Eight
objects representing brightly colored wooden shapes were presented. The target objects
were given the following names: modi, tooko, dawnoo, and koba. Fast mapping trials
and attention trials were conducted. During attention trials, the object was labeled. For
the fast mapping trials, previously labeled objects were presented with novel objects.
Using repeated attention-following cues in combination with fast mapping allowed for
successful acquisition of nouns in children with autism.
Baron-Cohen, Baldwin, and Crowson (1997) examined the influence of the
speaker's direction of gaze in word learning for children with autism who had
16 FAST MAPPING IN CHILDREN WITH AUTISM
documented impairment in joint-attention. The subject was given an object and the
experimenter kept an object. As the child looked at his/her object, the experimenter
looked at the object held in the experimenter's hand and said the name of the novel object.
In this condition for introduction of the novel item, the experimenter's direction of gaze
was used. The novel object was named by the experimenter using the nonsense word,
peri. Comprehension testing followed. The two objects were then put in a bag with two
unused novel objects, and the child was asked to find the peri. In the next condition, the
object presentation was the same, except the experimenter looked at the child's toy when
saying the name of the child's object. The experimenter used the child's direction of
gaze to stimulate learning. Comprehension testing for this condition was the same as the
previous comprehension test. The researchers found that only 29.4% of children with
autism with documented deficits in joint-attention correctly mapped a novel word to a
novel object using the experimenter's direction of gaze. Children with autism mapped
the object that they were looking at rather than referring to the object the experimenter
was looking at.
In a similar study, Luyster and Lord (2009) addressed fast mapping to determine
if children with autism spectrum disorder (ASD) were able to use social information to
guide their word-object mapping when matched with typically developing children with
similar expressive vocabularies. The mean chronological age for children with autism
was 30.86 months and the mean age for typically developing children was 20.62 months.
The study began with familiar object training in which children were asked to choose the
familiar object requested by the investigator when placed next to two distracters. This
task was used to determine if children were able to complete a basic task of fast mapping
17 FAST MAPPING IN CHILDREN WITH AUTISM
by associating a word with an obj ect from a group of three. Children who passed this
task were administered word learning tasks. Words for each fast mapping task were
randomly chosen from twenty simple nonsense words. During the training phase, the
investigator moved an object in front of the child and said, "That's a toma. See, it's a
toma. Look, it's a toma." Another nonlabled object was also presented. The testing
phase required the child to choose the named object from a group containing the
nonlabeled object and the distracter. The investigator asked the child to, "Put the toma in
the basket. For the pragmatic task, two novel items were placed on the table, and an
interesting action was demonstrated with each object. The child was given an object and
the investigator kept an object. During this time, the investigator looked at the toy she
was holding in her hand and said, "That's aperi; see, it's a peri; look, it's aperi."
Discrepancy training required the child to put the peri in the bucket when it was
presented with two novel objects and one distracter. Follow-in training was the same as
discrepant training except the examiner faced forward, gazing directly toward the child
and the child's toy. Results indicated that children with autism did not differ in their
ability to learn the name of a novel object when the examiner followed the focus of the
child's own attention or when the examiner's focus of attention was different from the
child's. This suggested that, compared to typically developing children with the same
expressive vocabulary, children with ASD also used social information to guide word
object mapping.
Research focused on fast mapping skills in children with autism suggests that fast
mapping of labels is successful when attention cues are given. It also indicates that
18 FAST MAPPING IN CHILDREN WITH AUTISM
children with autism who have impaim1ent in joint attention fast map using their own
direction of gaze rather than the examiner's direction of gaze.
Research by Heibeck and Markman (1985) indicated that fast mapping had a
greater impact when children knew some words in the same category as the unfamiliar
word. By using nonsense words, other studies prevented children from using knowledge
of items in a category to extend and increase their word learning.
More recent fast mapping studies of children with autism focused on their use of
attention, gaze, and social information, rather than their capacity to learn and retain
vocabulary. Objects to be fast mapped in these studies were presented individually rather
than in a contrasting pair (one familiar and one unfamiliar item). The examiners
presented an item and then labeled that individual item. Further research is needed to
determine whether the presence of a contrasting context in fast mapping is successful for
children with autism. Retention testing in these studies did not test for a difference in
comprehension immediately after fast mapping and after a delay.
Presentation of Fast Mapping
Presentation of unfamiliar words in fast mapping tasks has differed across studies.
In previous studies, such as Carey and Bartlett (1978), fast mapping was presented using
a contrasting context. The child was presented with two objects. One object was a color
that the child was familiar with and the other a color that was unfamiliar to the child.
They used two trays, one blue and one beige, and asked children to, "Bring me the beige
one, not the blue one." Blue was a familiar word and beige was unfamiliar. The task
required the children to contrast blue and beige which allowed them to infer that the label
of the unfamiliar color was beige.
19 FAST MAPPING IN CHILDREN WITH AUTISM
Other studies used the context of one unfamiliar item to facilitate fast mapping. In
a study of fast mapping in typically developing children, Gershkoff-Stowe and Hahn
(2007) instructed parents to give a prompt similar to the following: "See the crab? The
crab lives in the ocean!" No reference to a contrasting object was made by the parent.
The parent simply presented one unfamiliar item and labeled the item for the child. In a
study by Wilkinson and Green (1998), unfamiliar words were presented through a
computer program that used visual stimuli in the form of a picture rather than real objects.
While each study used a different method of presentation, all were successful in
facilitating vocabulary acquisition through fast mapping.
Length of Retention
Evaluation of the retention of vocabulary words acquired through fast mapping
varied from study to study. For example, Carey and Bartlett (1978) waited a week to
assess retention of fast mapping. In other studies, experimenters assessed fast mapping in
the same session or after a short period of time (Heibeck & Markman, 1985; Wilkinson &
Green, 1998). Some experimenters wanted to extend the child's retention, while others
focused on evaluating their immediate ability to learn a new word through fast mapping.
The Present Study
Research on fast mapping for several different populations has been completed,
including typically developing children and those with Down syndrome, SLI, and
cognitive impairment. Research suggests that fast mapping is successful in typically
developing children, children with Down syndrome, and children with cognitive
impairment; however, children with SLI have little success with fast mapping. There is
minimal research on the use of fast mapping by children with autism. Further research is
20 FAST MAPPING IN CHILDREN WITH AUTISM
needed to investigate the use of a contrasting context in the presentation of fast mapping
for children with autism. When provided with familiar items from a category, children
with autism may have more success mapping a novel word to its referent. Retention is
another aspect of fast mapping that warrants further investigation. Retention testing
completed the same day as a fast mapping trial and retention testing completed at least 24
hours following fast mapping will provide insight into comprehension of the fast mapped
objects, as well as the amount of time new vocabulary is retained.
It is important to know if fast mapping is a valid tool for vocabulary acquisition
within the autism population, as children with autism need to expand their vocabulary
knowledge. Fast mapping may be successful for addressing the basic lexical deficits of
children with autism. The present study sought to answer the following questions: 1) Is
fast mapping an effective technique for vocabulary acquisition in school-age children
with autism? 2) Are children with autism able to retain novel words acquired through fast
mapping?
21 FAST MAPPING IN CHILDREN WITH AUTISM
Chapter 3
Methodology
Participants
Participants were recruited through the client base at the Eastern Illinois Speech
Language-Hearing Clinic and The Autism Program in Charleston, Illinois. Normal
hearing and vision and the ability to follow one-step directions were required for
participation. Normal hearing and vision were determined through informal observation
of the participants and review of medical records. A parent questionnaire which included
items from the Rossetti Infant-Toddler Language Scale (Rossetti, 1990) was administered
to evaluate receptive and expressive language (Appendix A).
Participants included four children ages six to eight years who were diagnosed
with autism. Participant 1 was a seven year old male diagnosed with autism and apraxia.
Characteristics of autism in this participant were severe, as evidenced by significant
language and cognitive deficits and frequent restrictive repetitive behaviors. According
to the parent questionnaire, he was nonverbal and used picture-based communication, an
augmentative alternative communication (AAC) device, or American Sign Language
(ASL) to express his wants and needs. He received services at the Em Clinic during and
prior to the study.
Participant 2 was a six year old male diagnosed with mild autism. He had a
higher language and cognitive levels than the other three participants. Information
obtained through the parent questionnaire stated he was able to express and comprehend
complete sentences. He received services at the Em Clinic during and prior to the study,
and attended social groups at the Autism Center.
22 FAST MAPPING IN CHILDREN WITH AUTISM
Participant 3 was an eight year old female diagnosed with autism and apraxia.
She presented with severe autism, evidenced by significant language and cognitive
impairments, and extreme need for sensory stimulation. According to the parent
questionnaire, she was nonverbal and used an AAC device to express her wants and
needs. She was also seen at the Em Clinic during this study, and had been receiving
services there for several years.
Participant 4 was an eight year old male. Information reported by his mother on
the parent questionnaire indicated he was able to express approximately 300 words;
however, a large amount of his speech was echolalia. He presented with language
deficits and frequent restrictive, repetitive behaviors. He had been seen at the Em Clinic
on and off for several years, and was receiving services there during this study.
Materials
Stimuli consisted of 75 small toys representing familiar and unfamiliar animals,
foods and colors. Stimuli were presented in a display box with an open window in the
front and the back. A curtain was draped over the box and lifted on the side closest to the
child as the researcher manipulated the stimuli. The box was used as needed to direct
attention to the stimuli. If the box was distracting to the participant, it was removed.
Procedures
This study was conducted using a multiple baseline across subjects design. The
multiple baseline across subjects design allows for control of extraneous variables. Each
subject stays at baseline until the previous subject has reached a certain point in the
treatment phase.
23 FAST MAPPING IN CHILDREN WITH AUTISM
A pretest was used to determine which of the 75 toy objects each participant
correctly identified and which objects were unfamiliar. During the pre-test, objects were
presented in groups of five. The researcher placed the objects inside a box covered with
a drape. The participants were asked to, "Get the _," as the researcher lifted the drape
on the side of the display box facing the participant. For an object to be determined
familiar, the subject had to correctly select the requested object two times. An object was
determined unfamiliar when it was not selected after being named in two separate trials.
During the treatment phase, the toy objects were presented in groups of three.
The researcher presented one unfamiliar object with two familiar objects. This allowed
the participant to fast-map meaning of the unfamiliar object. Familiar objects were
rotated so that the unfamiliar object was presented with a variety of familiar objects.
Placement of the unfamiliar object was rotated randomly among the left, right, and
middle positions. Similar to the pre-test, the researcher placed the objects inside the box
covered with a drape. The participants were asked to, "Get the _," as the researcher
lifted the drape on the side of the display box facing the participant. During each trial,
twenty unfamiliar objects were presented for fast mapping. Each unfamiliar object was
presented for fast mapping six times, each time with different familiar objects. To assess
comprehension, to probes were administered, the first at least 20 minutes after treatment
and the second at least one day after treatment. Probing followed the same methodology
as treatment, except a fast mapped object was presented with two unfamiliar objects.
Verbal praise, such as, "Good job," was given intermittently throughout the pre-test,
treatment, and probe phases. Edible reinforcement was given, if needed. For participants
who had difficulty sitting in a chair and waiting to grab objects, a graduate student or
24 FAST MAPPING IN CHILDREN WITH AUTISM
professor was present to sit with the child and control behavior. Sessions varied in length
among participants from approximately 30 minutes to 90 minutes.
Data Management
Sessions were conducted individually by one administrator in a quiet room. Data
were collected during each session in the form of tallied correct/incorrect responses for
each unfamiliar item. Sessions were video recorded and viewed by the researcher for the
purpose of ensuring reliability of data collection. Intra-rater reliability was measured for
20% of the sessions. Intra-rater reliability was 97%, suggesting high reliability in data
collection. All inaccuracies in initial recording of data were reconciled prior to further
analysis.
Data from each trial and probe for each subject were tabled for visual inspection.
The means of fast mapping trials and probes were calculated to compare performance
during pre-test, treatment, and probe phases.
25 FAST MAPPING IN CHILDREN WITH AUTISM
Chapter 4
Results
Data were analyzed to determine the effect of fast mapping on vocabulary
acquisition for children with autism. Figure 1 illustrates results for Participant 1 from
baseline through probe phases. He began with a baseline of O. The mean percentage of
vocabulary words fast mapped during the treatment phase was 68.3%, and the mean
number of vocabulary words retained through the probe phase was 75%.
Figure 1
Data for Participant 1
100%
"0 (l)
80%0. 0. ro E ..... 60%VI ro.... VI
"0... 0 40%3: .... 0 ..... s:: 20%(l) u... ClI
0..
0%
26 FAST MAPPING IN CHILDREN WITH AUTISM
Results for Participant 2 are depicted in Figure 2. He began with a baseline of O.
The mean percentage of vocabulary words fast mapped during the treatment phase was
99.2%. The mean percentage of vocabulary words retained through the probe phase was
77.5%.
Figure 2
Data for Participant 2
----_._--_._-----------------------------_._-_.
-c <lJ c. c. ro
100%
80%
......
Ir"'-.y .it. ..... 4-0
\ ~ f ....
'" ro.... 60% ,-------_. -
'"-c .... 0 3 .... 0 .... c: <lJ u .... <lJ
0..
40%
20% -
J
j-Ir--
0% ~ T
/ /
27 FAST MAPPING IN CHILDREN WITH AUTISM
Results for Participant 3 are illustrated in Figure 3. She began with a baseline of
O. The mean percentage of vocabulary fast mapped during the treatment phase was 60%.
The mean percentage of vocabulary retained through the probe phase was 40%.
Figure 3
Data for Participant 3
100% 1--------·-· ._-----------
"tJ <l)
--_._-----------._---0. 80% ro E ....
0.
/ .,'"ro.... 60%
"tJ'" I
0 l~~~ I$ 40% .... 0 '\(... s:: u <l) 20%
J I
I <l) c..
0% v ~ -(i
/ / / / /
28 FAST MAPPING IN CHILDREN WITH AUTISM
Results for Participant 4 are depicted in Figure 4. He began with a baseline of O.
The mean percentage of vocabulary fast mapped during the treatment phase was 69.1 %.
The mean percentage of vocabulary retained through the probe phase was 55%.
Figure 4
Data for Participant 4
r--------------------------------------------------------------~
100% c----------------------- -----------------"U ..~ Q)
i\D.
~ 80% ~----------------~1~~-------~----
Vl
E I \
.2 60% +'
----------'1 '\/ ------"\_/---Vl
"U ! J ' "o S 40% f---------- --------------1------------- -----.... o +' C Q) v "\I) c..
20%
0% 4=i)c=-i'=.~ • • • I
.. =-~,~)-- ---------------'---
I I I I I I ~ ~ <l! Vl ro OJ
rv
~ rv
~
n')
rv
t=
<:t r;;
-c: f-
Lfl
ro
t=
(!)
ro
t=
.-j
<l! .0 0 '-c..
N <l! .0 0 '-c..
29 FAST MAPPING IN CHILDREN WITH AUTISM
Chapter 5
Discussion
The purpose of this study was to answer the following two research questions:
1) Is fast mapping a valid technique for vocabulary acquisition in school-age children
with autism; 2) Are children with autism able to retain novel words acquired through fast
mapping? According to results from this study, fast mapping was a valid tecJ:mique for
facilitating vocabulary acquisition across a diverse range of participants. All participants
in the study benefited from fast mapping. The percentage of words retained after fast
mapping varied among participants; but all participants retained vocabulary acquired
through fast mapping.
Summary of Results
All participants began with a baseline of O. For participant 1, the mean
percentage of vocabulary words fast mapped during the treatment phase to be 68.3%, and
the mean number of vocabulary words retained through the probe phase was 75%.
Participant 2 had a mean percentage of 99.2% for vocabulary words fast mapped during
the treatment phase. His mean percentage of vocabulary words retained through the
probe phase was 77.5%. For participant 3, the mean percentage of vocabulary fast
mapped during the treatment phase was 60%, and the mean percentage of vocabulary
retained through the probe phase was 40%. Participant 4 had a mean percentage of
69.1 % for vocabulary fast mapped during the treatment phase and a mean percentage of
55% for vocabulary retained through the probe phase.
While the language and cognitive levels of participants were diverse, all
participants in this study benefited from fast mapping. Participants 1 and 3 were
30 FAST MAPPING IN CHILDREN WITH AUTISM
nonverbal. Participant 3 had little meaningful expressive language. Participant 2 was
verbal and had the largest vocabulary of all participants. Results indicated that fast
mapping was successful in children with a range of expressive language levels. While
retention of new vocabulary decreased from fast mapping trials, vocabulary was retained
across all participants. The lowest percentage of vocabulary retention was 40%, or eight
objects. This suggests that even children with minimal expressive language are able to
benefit from fast mapping in terms of learning new vocabulary and retaining it for at least
24 hours.
All participants demonstrated attention problems during the research activities.
Impulsivity was noted in Participants 1 and 3, and significant attention problems were
seen in all participants. If needed, participants were given edible reinforcement
intermittently to increase attention to task. Based on impulsivity noted during pre-testing,
objects that were consistently distracting were not used in the fast mapping task. For
example, dinosaurs were eliminated for one participant because he impulsively grabbed
the dinosaurs every time they were presented. Removing objects did not completely
eliminate impulsive responding, so time delay was also used to control for impulsivity.
The participant's hands were held until he or she had viewed all of the objects. While
this improved subjects' ability to respond at the appropriate time, impulsivity was often
related to texture or visually pleasing patterns and colors. Results of this study
demonstrated that children with autism can fast map new vocabulary despite attention
deficits or impulsivity, especially with redirection to task.
31 FAST MAPPING IN CHILDREN WITH AUTISM
Relation to Past Research
Vocabulary acquisition. In previous studies, fast mapping has been found to
increase vocabulary acquisition in children with various disorders (McDuffie, Yoder, and
Stone, 2006; Luyster and Lord, 2009). Wilkinson and Green (1998) found that fast
mapping was successful in children with cognitive impairment who did not have
extensive expressive vocabularies. Later studies by Wilkinson (2005; 2007) indicated
that retention/learning following initial fast mapping trials was poor for children with
cognitive impairment. They were able to complete fast mapping, but had difficulty
retaining the new vocabulary. In the current study, four children with autism with diverse
language abilities were able to learn new vocabulary through fast mapping. All
participants were able to retain vocabulary learned through fast mapping; however
identification of new vocabulary decreased from the treatment phase to the retention task.
Type of fast mapping task. Carey and Bartlett (1978) and Heibeck and
Markman (1985) presented fast mapping by pairing familiar and unfamiliar objects to
facilitate fast mapping of new vocabulary. When the child inferred which object was
being requested, he or she handed the object to the examiner. The simplicity of this task
may have allowed for success in participants with little expressive language. In the
current study, children with autism responded well to the contrasting context method of
presentation. They used knowledge of familiar objects to attach a label to the unfamiliar
object.
Research by Heibeck and Markman (1985) suggested fast mapping had a greater
impact when children knew some words in the same category as the unfamiliar word.
Objects in this study were presented in categories to allow children to use previous
32 FAST MAPPING IN CHILDREN WITH AUTISM
knowledge of objects in the category to increase their success when fast mapping novel
vocabulary.
Language ability of participants. Previous research (McDuffie, Yoder, and
Stone, 2006; Luyster and Lord, 2009) suggests that children with autism, even those with
limited language are able to acquire vocabulary through structured fast mapping tasks.
The current study supports this conclusion. Three participants in the current study
presented with limited language and were able to acquire new vocabulary through fast
mapping.
Clinical Implications
Fast mapping is a valid technique for stimulating vocabulary acquisition in
children with autism. Fast mapping can be applied across settings and situations to
introduce new vocabulary. This technique is simple and can be used at home, in the
classroom, or in a therapy room. Children with autism responded well to the short, quick
application of fast mapping. Whether a child is able to attend for seconds or minutes, fast
mapping can be used to increase vocabulary acquisition.
Vocabulary acquisition for children who are nonverbal and have cognitive
impairment is challenging. Fast mapping may be an option for vocabulary development
in this population. The structured nature of fast mapping tasks using concrete objects
provides an optimalleaming activity for introduction of new vocabulary. There is no
verbal response necessary in fast mapping, so children who are nonverbal are able to
participate in therapeutic fast mapping activities.
Building vocabulary provides a foundation for language growth. Fast mapping
provides an opportunity for language expansion in children with autism. Learning
33 FAST MAPPING IN CHILDREN WITH AUTISM
functional, receptive vocabulary (cup, plate, milk) may lead to later use of the new
vocabulary to request and communicate wants and needs.
Strengths and Limitations
Results supported the use of fast mapping for children with autism, especially
when considering the wide range of receptive and expressive language abilities among
participants. One participant had a large expressive vocabulary, while two children were
almost completely nonverbal. Cognition varied among participants, as well. Even with
such diverse language abilities, fast mapping was successful for all subjects, indicating its
effectiveness among children with autism across different levels of cognitive and
linguistic ability.
Another strength was the consistency in application of the treatment variable
across all subjects. Each participant received the same exposure to fast mapping.
Transition and novel situations are difficult for many children, especially those with
autism. Having one examiner and consistency across sessions provided a familiar
learning experience for each session.
Another strength of this study related to task design. Familiar objects were
rotated to reduce memorization of the unfamiliar object within a group. Each time an
unfamiliar item was presented for fast mapping, it was introduced with different familiar
objects. This provided a new trial rather than repetition of a previous trial. In addition to
rotation of familiar objects, the objects were placed in a random order of presentation for
each trial. For example, the unfamiliar object was not always placed on the left side.
Again, this prevented the child from memorizing a pattern, and contributed to more
reliable results.
34 FAST MAPPING IN CHILDREN WITH AUTISM
Participant impulsivity, length of sessions, and a small sample size were
limitations. All but one participant demonstrated impulsivity, which interfered with fast
mapping. Items of interest to the child were sometimes chosen instead of requested items.
Although techniques were used to decrease impulsivity, it was not completely eliminated.
Participants 3 and 4 fatigued near the end of sessions which may have negatively
impacted results. Their decreased attention to the task could have decreased their
accuracy in fast mapping trials. The participants who demonstrated fatigue may have
performed better if treatment sessions had been shorter in length.
The present study included a small sample size of four subjects. A larger number
of participants would provide for greater generalization of results to support the use of
fast mapping across the autism population.
Future Research
Further research in the area of fast mapping for children with autism is indicated.
Length of retention is an important aspect of fast mapping should be investigated. This
study evaluated retention after at least 20 minutes and again after at least 24 hours.
Future studies should include retention probes that extend up to two weeks following fast
mapping. Clinicians and teachers need to know how long vocabulary is being retained.
The present study identified that some vocabulary was retained for at least 24 hours, but
further research needs to be completed to determine if retention has resulted in learning
the new vocabulary.
Fast mapping of concepts should also be investigated. The present study
presented only concrete vocabulary of objects and colors for fast mapping. Future
research should focus on fast mapping of concepts, such as texture and shape.
35 FAST MAPPING IN CHILDREN WITH AUTISM
It is also important to know if fast mapping is successful when presented in a
natural environment. In the present study, fast mapping was presented in a quiet therapy
room. Further research should examine the potential of fast mapping in a naturalistic
setting, such as the classroom or home environment.
The present study should be replicated with a larger number of children with
autism to allow for generalization of findings. A comparative group study would allow
for more insight into the potential of fast mapping abilities in children with autism.
Conclusions
The present study addressed the use of fast mapping for vocabulary acquisition in
children with autism. Fast mapping has been shown to be a valid technique to facilitate
vocabulary acquisition. The concrete nature of fast mapping is beneficial for children
with cognitive impairment, including those with autism. Learning occurs after brief,
structured exposures, and can be used with children of varying levels of receptive and
expressive language. Even children with attention deficits and impulsivity were able to
benefit from fast mapping. The brief nature of fast mapping provides a quick, convenient
learning opportunity.
Vocabulary growth is challenging for children with autism who have cognitive
impairment and little expressive language. Children with autism who have had little
success learning new vocabulary may benefit from fast mapping. In this study, children
with autism with diverse language abilities benefited from fast mapping and were able to
acquire and retain new vocabulary with this method of vocabulary stimulation. Building
vocabulary in children with autism provides a foundation for language growth.
36 FAST MAPPING IN CHILDREN WITH AUTISM
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37 FAST MAPPING IN CHILDREN WITH AUTISM
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40 FAST MAPPING IN CHILDREN WITH AUTISM
Appendix A
Parent Questionnaire
Interaction and Communication Development
Please answer yes or no to the following questions. If you answer yes for any of the
following questions, please use the space provided to explain.
1. Was your child ever separated from you for a long time?
2. Did your child require frequent hospitalization?
3. Did your child resist cuddling?
4. Was your child often difficulty to calm?
5. Was your child often colicky?
6. Did your child seem very restless?
7. Did your child seem very inactive?
8. Was your child nomesponsive when you "talked" with himlher?
9. Did your child often avoid eye contact with you or others?
10. Did your child often play with toys in an unusual manner?
11. Did your child use gestures to communicate?
12. Did your child show interest in the people and things around himlher? Ifyou
answer "no" to this question, please explain
Comprehension and Understanding
When you compare your child to other children ofthe same age:
13. Is your child easily confused when there are many things taking place around
himlher?
14. How does your child respond when you give himlher directions?
41 FAST MAPPING IN CHILDREN WITH AUTISM
15. How does your child respond to simple questions?
16. How would you describe your child's intelligence or thinking skills?
Speech and Language Development
17. Describe the kind of sounds your child made before one year of age - cooing
prolonged vowel sounds, babbling repeated syllables, squealing, etc.
18. Was there anything unusual about the sounds your child made during this period?
19. When did your child say hislher first real word?
20. Did your child continue to add new words on a regular basis?
a. How often did your child add a new word?
b. Did your child frequently use another way to communicate?
21. Did your child's speech or language development seem to stop for a time?
a. When and why do you think it stopped?
b. How did your child communicate with you during this time?
22. When did your child first put two or three words together?
23. When did your child begin to use more complete sentences?
24. How many different words is you child saying now?
25. Do you consider your child to be talkative or quiet?
26. How does your child usually let you know what he/she wants?
If you answer with "pointing" or "gesturing" to this question, please respond to
a and b below.
a. Does your child try to talk in combination with pointing?
b. Does anyone in the family talk for your child or interpret hislher gestures?
27. Has your child ever talked better than he/she does now?
42 FAST MAPPING IN CHILDREN WITH AUTISM
28. Do you think your child's speech is normal for hislher age?
If you answer no to this question, please respond to a, b, and c below.
a. How well do you understand your child's speech?
b. How well do people outside of the family understand your child's speech?
c. How does your child react if he/she is not understood by others?
29. Do you have any concern about the way your child's tongue or mouth works for
speech or for eating?
30. What concerns you most about your child's speech or language skills now?
31. What have you done to help your child learn to talk?
32. Has anything about your child's speech or language development seemed unusual
to you?
33. How much time does your child spend with other children?
34. Does anyone in the family have a history of speech or language problems?
35. Do you have medical records indicating your child presents with normal hearing?
36. Do you have medical records indicating your child presents with normal vision?
37. Does your child demonstrate the ability to learn new vocabulary?
38. How long is your child able to participate in an activity?
39. Is your child easily redirected back to an activity?
40. Is your child able to follow simple one-step directions?
41. Please give a few examples of word/phrases your child understand and/or says.
43 FAST MAPPING IN CHILDREN WITH AUTISM
Appendix B
Vocabulary Data
Participant 1
Vocabulary Group #1 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Bat + + + + + + + + Dragonfly + - - + . + - + Squirrel + - + + + + + + Ram + - . . - + . + Cheetah - - + - . + + .
Vocablu ary Group #2 Unfamiliar Trial Trial Trial Trial Trial Trial Probe Probe
Object 1 2 3 4 S 6 1 2 Grasshopper + + + + + + + + Moose + + + + + + + + Seal + + + + + + + + Panther + - - - - + + -Beaver + + - + + + - +
Vocabulary Group #3 Unfamiliar Trial! Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Mushroom - + . - + + + -Cheese - - + + + + + + Potato + + - - + + + + Stir-fry - + - + + + + + Tortilla + - - - . - + -Vocabulary Group #4 Unfamiliar Trial 1 Trial 2 I Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Pepper + - + + + + - + Hotdog + + + + + + + + Pickle + - - + + - + -Moon Pie + + + - - + + . Broccoli + + + + + + + +
44 FAST MAPPING IN CHILDREN WITH AUTISM
Participant 2
Vocabulary Group #1 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Bat + . + + + + · + Beaver . + + + + + + . Hippo - + + . + - · + Tiger + + + + + - · Fly + + . + + + -
Vocabulary Group #2 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 DOK - - + + - + - + Horse + + + + + + - Raccoon + + + + + + - + Dragonfly + - + - + + + + Deer - + - - + - -
Vocabulary Group #3 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Pear + - - + - + · + Lettuce - - - - - - - + Asparagus - - . + + - - Chili + - + + . - + + Pepper Chocolate + - - - - + +
Vocabulary Group #4 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Carrot + + + + - + Broccoli + + - + + + +· Mushroom + - - + . + · Potato - + + + + - · Pickle . - - + + + + +
45 FAST MAPPING IN CHILDREN WITH AUTISM
Participant 3
Vocabulary Group #1 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 Trial 5 Trial 6 Probe Probe
Object 1 2 Croissant + + - - + - - Turnip + - + - - - + Cheese + + + + + + + + Egg Roll + + - + + + + + Tortilla - - - + + + - +
Vocabulary Group #2 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 Trial 5 Trial 6 Probe Probe
Object 1 2 Asparagus - - - - - + - Carrot + + + + + + + + Moon Pie + - - + - + + + Mushroom + + + + + + - + Pear + + - - - - - +
Vocabulary Group #3 Unfamiliar Trial Trial Trial Trial Trial Trial Probe Probe
Object 1 2 3 4 5 6 1 2 Dragonfly + + + + + + + + Grasshopper + + - + + + - + Lizard + - - + + + - + Ram + + + + + - + Rhino + + + + - + + +
Vocabulary Group #4 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Pr~be I
Object 1 Plum + - - - - - - Lavender + - + + + + + Mauve + + + + + + + Scarlet + + + + + + - Turquoise + + + + + + + +
46 FAST MAPPING IN CHILDREN WITH AUTISM
Participant 4
Vocabulary Group #1 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Bolillio + + + + + + + + Cheese + + + + + + + + Egg Plant + + + + + + + + Kasutera + + + + + + + + Turnip + + + + + + + +
Vocabulary Group #2 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Bell + + + + + + + + Pepper Nigiri + + + + + + + + Squid + + + + + + + + Temaki + + + + + + + +
Vocabulary Group #3 Unfamiliar Trial Trial Trial Trial Trial Trial Probe Probe
Object 1 2 3 4 S 6 1 2 Ram + + + + + + + + Brachiosaurus + + + + + + + + Lavender + + + + + + + + Mauve + - + + + + + + Plum + + + + + + + + Tan + + + + + + + +
Vocabulary Group #4 Unfamiliar Trial 1 Trial 2 Trial 3 Trial 4 TrialS Trial 6 Probe Probe
Object 1 2 Gold + + + + + + + + Peach + + + + + + + + Turquoise + + + + + + + + Mahogany + + + + + + + + Scarlet + + + + + + + +
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