Слайд 2What is video modeling?
Any instances of modeling used to teach a new behavior
or change an existing behavior where the model is not a live one, but one that is videotaped
Implementation involves observing the model & then practicing/demonstrating the behavior in a natural setting
Builds on the trend of using visually cued instruction (visual supports) for children with ASD
Слайд 3Uses and Variations in Video Modeling
Video modeling can be used to teach positive
social, language, play & academic skills for children w/ a variety of disabilities
Videos may present peer, self-, or adult models of appropriate behavior
Observing a videotape of correct performance can also be used as a correction procedure
Video modeling can be incorporated as one element within a broad package of positive behavioral support for children with disabilities
Слайд 4Benefits of Video Modeling
Acceptable & widely used medium by typical adults & children
for leisure, educational, & business activities
A socially acceptable form of support
Has potential power & appeal for children with ASD who appear to be naturally attracted to video
Can present a variety of different behaviors in realistic contexts
the ability to focus on relevant stimuli
the reinforcing nature of watching videos
Слайд 5Benefits of Video Modeling
the ease of using different models & situations to increase
the opportunity for generalization to other settings, people
Useful for those with limited responsiveness to print materials and/or limited language repertoires
Potential to promote stimulus control of appropriate child behavior through nonsocial stimuli, reducing the need for prompts from other people
Allows for consistency of modeling across occasions
Efficient, ease of implementation
Слайд 6Research Findings
Research conducted by the National Teacher Training Institute
Found that elementary through high
school age students learn more when television and/or video is incorporated into their teaching
effects both engagement in instruction & retention of information
Слайд 7Research Findings
Teaching Complex Play Sequences to a Preschooler with Autism Using Video Modeling
Journal
of Positive Behavior Interventions, Winter, 2003, Patricia D'Ateno, Kathleen Mangiapanello
and Bridget A. Taylor
Focused on teaching play skills to a preschool child with autism
Videotaped play sequences included both verbal & motor responses
A multiple baseline across three response categories (tea party, shopping, and baking) was implemented
No experimenter-implemented reinforcement or correction procedures were used during the intervention.
Results showed that:
1. Video modeling intervention led to the rapid acquisition of both verbal & motor responses for all play sequences.
2. The video modeling teaching procedure was shown to be an efficient technique for teaching relatively long sequences of responses in the absence of chaining procedures in relatively few teaching sessions.
3. Additionally, the complex sequences of verbal & motor responses were acquired without the use of error correction procedures or explicit, experimenter implemented reinforcement contingencies.
Слайд 8Research Findings
Computer Presented Video Models to Teach Generative Spelling to a Child with
an
Autism Spectrum Disorder— Journal of Positive Behavior Interventions, Winter, 2003 Elisabeth
M. Kinney, Joseph Vedora & Robert Stromer
Examined the use of computer video models & video rewards to teach generative spelling to children with autism
The study involved:
Phase 1: The child viewed video models of her teacher writing target words. After she wrote correctly, she watched videos of play routines unique to each training word. Child rapidly learned to spell three five-word sets to pictures & dictation.
Phase 2: Child learned to spell four novel words (e.g., lore and tock) based on the elements of five words learned in Phase 1 (e.g., tore and lock)
Phases 3-4: Child learned to spell subsets of four three-by-three matrices, then immediately proved capable of spelling the remaining words in each matrix. Also succeeded on generalization and maintenance tests at home and school throughout the study.
Conclusion: a teaching package of video models and rewards demonstrates that academic skills can be acquired through this technique. As an additional outcome the students proficiency in spelling helped her acquire literacy skills commensurate with her regular school placement.
Слайд 9Research Findings
Using Video Modeling to Teach Perspective-Taking to Children with Autism
Journal of Positive
Behavior Interventions, Volume 5, Number 1, Marjorie Charlop-Christy and Sabrina Daneshvar
Employed video modeling with 3 boys with Autism (two six-year-olds and a nine-year-old), using five different perspective-taking tasks
None of the children was able to successfully complete a perspective-taking task administered before the study began
Results showed that:
When the video was introduced, one of the children mastered all of the five perspective tests after only a few viewings of the video.
The second child required more viewings, but also completed all of the tasks successfully. The third child was only able to pass three of the tests.
The two who passed tests after video training also were able to generalize their knowledge to other settings.
Слайд 10Research Findings
The Effects of Video Self-Modeling on Spontaneous Requesting
in Students with Autism— Journal
of Positive Behavior Interventions,
Volume 5, Number 1
Barbara Yingling Wert and John T. Neisworth
video self monitoring (VSM) includes observation and imitation of oneself on videotape that records specific desirable child behaviors
Study tested the effectiveness of VSM for training young children with autism to make spontaneous requests in school settings
Four young children with autism participated
Experimental control was demonstrated using a multiple baseline design across subjects.
Results:
Introduction of VSM led to a large increase in requesting behavior in all four children
Слайд 11Research Findings
A Comparison of Video Modeling with In Vivo Modeling for Teaching Children
with Autism Journal of Autism and Developmental Disorders, Volume 30, Number 6, December 2000, Charlop-Christy & Freeman
study designed to compare the effectiveness of video modeling with in vivo modeling for teaching developmental skills to children with autism
A multiple baseline design across five children and within child across the two modeling conditions (video and in vivo) and across tasks was used
Each child was presented two similar tasks from his or her curriculum; one task was used for the video condition, while the other was used for the in vivo condition
Video modeling consisted of each child watching a videotape of models performing the target behavior, whereas in vivo modeling consisted of the children observing live models perform the target behavior
After the observations, children were tested for acquisition & generalization of target behaviors
Results: video modeling led to faster acquisition of tasks than in vivo modeling & was effective in promoting generalization
Слайд 12Research Findings
A meta-analysis of video modeling and video self modeling
interventions for children and
adolescents with autism spectrum disorders. Exceptional Children, 73, 261-284. Bellini & Akullian (2007).
Meta analysis examined the results of 23 studies of video modeling or video self-modeling
All studies involved children viewing video models between 30 sec. & 13.5 minutes
Skills modeled fell into 3 areas: behavioral functioning, social-communication skills, & functional skills
Findings:
Both video and video self-modeling were effective in increasing performance in all 3 areas
Improvements were most evident in functional skills, followed by social-communication & behavioral functioning
VSM produced high maintenance effects
Determined that VM/VSM meet the criteria for an evidence-based practice
Слайд 15Internet Examples
Shoe tying
http://www.youtube.com/watch?v=lc4H6goKFB0&feature=youtube_gdata_player
Turn Taking
http://www.youtube.com/watch?v=Qjg3a3TqhKg&feature=youtube_gdata_player
Using a tissue
http://www.youtube.com/watch?v=krgzJmrE2ZQ&feature=youtube_gdata_player
Hand washing
http://www.youtube.com/watch?v=c4p4oRU21Eg&feature=youtube_gdata_player
Greeting game
http://www.youtube.com/watch?v=cER_yy_CWGM&feature=youtube_gdata_player
Слайд 16Design & Implementation Guidelines
Determine target skill and conduct a task analysis to determine
steps of the specific task skill
Script/plot out the steps
Videotape each, either in succession or in steps depending in the student
Simple behaviors should be about 30-40 seconds
Initially, the setting viewed in the videotape should be the same setting in which the child will demonstrate the skill
After, different settings can be used
Be sure the videotape shows a close-up of the action you want the child to imitate
Allow the child to watch the video at least once, potentially repeat
Слайд 17Design & Implementation Guidelines, cont.
Provide an opportunity for the child to demonstrate the
skill immediately after viewing the VM
If the child fails to demonstrate the skill, allow the to watch the video again (3 times)
Fade video model as skill is acquired
Eliminate narration, other video elements
Shorten video clips
Lengthen time between viewing and opportunity to demonstrate skill
error correction
For VSM, all errors & prompts should be edited from the videos so that the video shows only errorless behavior
Слайд 19Data Collection
Collect baseline data on skill prior to implementation of video modeling
Continue data
collection during implementation
Typically TA data is the most useful
Слайд 21Technology Requirements
A video recording device: traditional video camera, flip cam, smart phone with
video capability
Display format: TV/DVD player, portable DVD player, computer, I-Touch/I-PAD, I-Phone
Consider uploading to YouTube
Слайд 22Video Modeling Resources
Model Me Kids: www. Modelmekids.com
Time for School™
Time for a Playdate™
I Can
Do It!™
Model Me Faces & Emotions™
Model Me Going Places™
Model Me
Conversation Cues®
Model Me
Friendship™
Model Me
Tips & Tricks™
Model Me
Confidence & Bullying Prevention™
Model Me
Organization & Motivation™
Слайд 23Video Modeling Resources
http://www.modelmekids.com/autism-video-samples.html
Слайд 24Video Modeling Resources
Model Me Going Places™ App
“a great visual teaching tool for helping
your child learn to navigate challenging locations in the community. Each location contains a photo slide show of children modeling appropriate behavior"
Слайд 25Video Modeling Resources
DTT Trainer
http://www.youtube.com/watch?v=hjzc3ZYFIAk&feature=youtube_gdata_player
Слайд 26Discussion Activity
Discuss the types of skills, children, scenarios where you might use video
self modeling vs. those where a traditional video model might be more appropriate
Слайд 27Value
Capitalizes on rote memory strengths & echolalic behavior, making repeating language more
likely
Watching videos is a motivator
Videos have minimal visual & auditory distractions
Critical information is always present
Can zoom in on critical elements
Can be used across the lifespan
(Charlop-Christy & Daneshvar, 2003; Charlop-Christy et al., 2000)
~
Английский язык. Урок 39-40. 2 класс
Biosphere reserve Askania-Nova
Going shopping
Phonetic drill
Word taboo word(s). Lower pre intermediate
Interesting facts from people's lives English speaking countries
Spain. Madrid
Moot court. Litigation
Complete each of the sentences with the correct form of one of the verbs below and the particle UP
Omni-channel Solution
Present Perfect Simple
Образование порядковых числительных
Личные местоимения в английском языке
Spotlight 3. Module 8. Prepositions of Time (in, on, at)
RCS Component location
Possessive adjectives
What seasons do you know
Middle english phonetics
Christmas
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Personal Pronouns, Possessive Pronouns
American superstitions
What is Christmas?
Present continuous
Past simple теnse
Конструкции “There is / are”: утверждение, вопрос, отрицание
Глагол have got
The Past Indefinite Tense