Leveraging 3D Technology 
for Students with Autism
An innovative university-community collaboration  
for skill development and vocational exploration

The transition to adulthood is identified as a crucial period for 

individuals with ASD (Chen et al. 2015; Chen, Sung & Pi 2015; 

Hendricks & Wehman 2009; Levy & Perry 2011; Schall, Wehman 

& McDonough 2012; Taylor et al. 2012; Wehman et al. 2014b). 

Given the limited services, resources and opportunities that 

specifically address the needs of young adults with ASD, the 

transition after high school can be difficult, especially in terms of 

postsecondary education and meaningful employment (Migliore, 

Butterworth & Zalewska 2014; Wehman et al. 2014c; Wei et al. 

2015). Partnerships across a wide range of agencies, including 

universities and the business and corporate sectors, are crucial to 

addressing this transition (Chappel & Somers 2010; Wilczynski, 

Trammell & Clarke 2013). While the role of universities as 

professional intermediaries in community development has been 

examined (Fehren 2010), here the focus is on how university-based 

professionals coordinated with community organisations and 

business entities to address an aspect of habilitation services for 

youth with ASD in relation to vocational readiness. As Shattuck 

and Roux (2014, p. 698) contend, there is a critical need to begin 

a new conversation on both innovation and investment in the 

context of autism across the life course. They state:

This new perspective recognizes people on the autism spectrum and 

their families as valuable members of our communities – with roles to 

play, dreams to achieve, and contributions to make.

There is also the need to document how programs integrate 

services, research, training and policy to create better outcomes, 

and this requires convergence of best practice in research and in 

public and private sector innovations (Doehring & Volkmar 2016). 

It is with this perspective that we engaged in the development 

and implementation of a unique educational curriculum that 

leverages 3D technologies as a pathway to learning computer-

Cheryl A Wright 
Scott D Wright 
Marissa L Diener 
Deborah Rafferty 
Allison Sampson 
University of Utah

© 2017 by CA Wright, SD Wright, 
ML Diener, D Rafferty & A 
Sampson. This is an Open Access 
article distributed under the 
terms of the Creative Commons 
Attribution 4.0 Unported 
(CC BY 4.0) License (https://
creativecommons.org/licenses/
by/4.0/), allowing third parties to 
copy and redistribute the material 
in any medium or format and to 
remix, transform, and build upon 
the material for any purpose, even 
commercial, provided the original 
work is properly cited and states  
its license.

Citation: Wright, CA, Wright, SD, 
Diener, ML, Rafferty, D & Sampson, 
A 2017, ‘Leveraging 3D technology 
for students with autism: An 
innovative university-community 
collaboration for skill development 
and vocational exploration’, 
Gateways: International Journal of 
Community Research and Engagement, 
vol. 10, pp. 265–282. doi: 10.5130/
ijcre.v10i1.5000

Corresponding author: 
Cheryl Wright; 
cheryl.wright@fcs.utah.edu

DOI: http://dx.doi.org/10.5130/
ijcre.v10i1.5000

ISSN 1836-3393
Published by UTS ePRESS
http://epress.lib.uts.edu.au/
journals/index.php/ijcre/index

Gateways:  
International  
Journal of  
Community Research  
and Engagement 

Vol 10 (2017)

DECLARATION OF CONFLICTING INTEREST  
Cheryl Wright and Scott Wright have a financial interest in the social 
enterprise NeuroVersity.



266 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

based skill sets, social competency, vocational exploration 

and self-determination. This educational program is built on 

a collaborative model, working with families and individuals 

with ASD, school systems, non-profit agencies, businesses and 

communities, with corporate support.

The partnerships involved in this project are ongoing and 

have evolved over the past five years, engaging undergraduates, 

graduate students and faculty from five colleges (Nursing, Social 

and Behavioral Sciences, Education, Health, and Business) in 

partnership with non-profit organisations, schools and private 

businesses. The binding mission of this diverse group was to work 

together to offer a 3D technology program for youth with ASD to 

enable skill development and vocational exploration.

CHALLENGE OF EMPLOYMENT 
There are many issues that make this a critical topic today. 

Employment is a major part of an adult’s identity and greatly 

impacts quality of life (Roux et al. 2015; Sung et al. 2015). The 

application of acquired skills to a meaningful job translates to an 

enhanced perception of quality of life and subjective wellbeing 

for young adults with ASD (Gal et al. 2015). Some 50,000 people 

with ASD turn 18 every year in the United States and represent 

the largest group seeking employment in the autism population 

(Sung et al. 2015). The literature indicates that adults with ASD 

are reported to be among the least successful groups of individuals 

in terms of community integration, post-secondary education 

and employment outcomes, even when compared to populations 

with other disabilities (Burgess & Cimera 2014; Neary, Gilmore & 

Ashburner 2015). This is most likely due to social difficulties and 

social anxiety in young adults with ASD (Fortuna 2014). 

Most young people with ASD are not only unemployed 

but live in their family home and have jobs considered low wage 

and ‘unskilled’ (Neary, Gilmore & Ashburner 2015; Roux et al. 

2013). Specifically, for those young individuals with ASD who 

had exited high school, fewer than 50 per cent had participated 

in post-secondary education or employment, and six years after 

high school only 55 per cent of participants had paid employment 

during this time (Shattuck et al. 2012). Furthermore, individuals 

who found employment were often under-employed and had 

difficulty remaining employed (Shattuck et al. 2012). 

Adults with ASD do wish to be employed, yet there are 

limited opportunities for employment in competitive markets 

(Jacob et al. 2015). One reason for these low employment rates is 

that many individuals with ASD have difficulty interpreting and 

navigating social situations and this can create challenges in the 

workplace (Jacob et al. 2015). One challenge is their difficulty in 

understanding and communicating with supervisors, which can 

be a primary hindrance to job performance and often lead to their 

being terminated from the workplace (Wehman et al. 2014a). Some 

may also find the social skills necessary during the job application 

and interview process difficult to navigate (Hendricks 2010).



267 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

Individuals with ASD have unique vocational needs, and 

the support services available to this population are often limited 

and less than optimal (Jacob et al. 2015). Compared to services 

for other people with disabilities, services for individuals with ASD 

are more expensive and often do not provide sufficient support 

(Burgess & Cimera 2014). People with ASD are also more likely 

to be denied services as their disability is regarded as too severe 

(Hendricks 2010). In examining transition services for youth with 

ASD, those aged 18 and younger represented the largest group, 

and only 47 per cent of them secured employment after receiving 

services (Chen et al. 2015). Given the significant heterogeneity in 

ASD, there can be an array of challenges for individuals entering 

adulthood such as co-morbid health conditions, impairment in 

social functioning and reduced capacity for independent living 

that may lead to poor educational outcomes and employment 

prospects (Spain & Blainey 2015). 

One important strategy in addressing this employment 

crisis is to involve a multi-disciplinary team of professions, 

agencies and businesses. This article describes a case study of a 

university-community partnership in a technology education 

program that recognises the strengths of the individual with 

autism. The partners in this community collaboration include 

an interdisciplinary team of university professors and students, a 

community employment centre, a school district, a construction 

company and the university’s entrepreneurial centre. This case 

study is a part of the larger technology educational program 

described below.

A TECHNOLOGY PROGRAM FOR TRANSITION-AGED 
STUDENTS WITH ASD
The NeuroVersity™ program was developed in an effort to increase 

vocational readiness for students with autism by teaching them 3D 

technology skills (Diener et al. 2015). Criteria for inclusion in this 

program require students with an autism diagnosis to be verbal, 

have an interest in technology and be visual–spatial learners, 

and typically from regular education classrooms and capable of 

working in a group setting. Trimble SketchUp, a free downloadable 

3D modelling program, is the foundation software used in 

this program. SketchUp is used in a wide variety of professions 

including architecture, construction, engineering, computer 

science and video-gaming. Many students with autism are visual 

learners and interact with SketchUp modelling tools and design 

techniques with confidence and creative ability (Grandin 1995; 

Kennedy & Banks 2011; Wright et al. 2011). During workshops, 

students create intricate 3D models based on individual interests, 

ranging from ideal living spaces to fantasy worlds. A SketchUp 

expert, a professional who uses SketchUp in their career, provides 

SketchUp demonstrations at the beginning of each day and is 

a role model of a professional working in a 3D design field. Two 

facilitators, typically professionals with ASD experience, work with 



268 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

the students, monitoring behaviours and assisting students as 

they learn SketchUp. Classes range in size from 10 to 12 students 

who are in their transition years (16–22 years old). Foundational 

workshops focused on basic SketchUp skills are offered in a two-

week, half-day workshop format, primarily during the summer 

months, followed by after-school programming workshops during 

the school year.

The program is evidence supported and has served over 80 

students with ASD (with a wide range of diversity and disability) 

in four states of the USA and internationally in South Africa over 

the last five years (D’Astous et al. 2013; Diener et al. 2015; Diener, 

Wright & Smith 2014; Wright et al. 2011; Wright 2014a). The 

program provides students the opportunity to work and socialise 

with peers and to build on natural skills and abilities that can 

potentially benefit them in the workplace. The program also 

emphasises the importance of visual–spatial strengths in fostering 

creativity (Diener, Wright & Smith 2014). 

A very important dimension of the program is the emphasis 

on community partners. The program uses a collaborative 

community, multi-faceted skill development model (personal, 

social and vocational) to program structure and curriculum 

(Wright et al. 2014). Community partners, as well as families and 

students, are important contributors to program design. 

The university-community partnership case study took 

place over two weeks during the summer. Students attending 

the workshop were paid to create 3D models based on exact 

specifications from 2D plans provided by the construction 

company. Funds for this pilot study were provided through a grant 

from the state’s Technology, Commercialization, and Innovation 

Program (TCIP). 

Method/Implementation Process

The implementation of the study was successful because of 

the involvement of a wide range of professionals and agencies 

with similar missions. The university provided the staffing and 

expertise for implementation of the study and the community 

employment centre provided the space and computers. The school 

district identified and recruited students and families and provided 

technology support. The university’s entrepreneurial centre 

brought us all together, planned meetings and took minutes, and 

created action items to ensure continuing group progress over the 

six-month planning period. 

The business graduate students from the entrepreneurial 

centre surveyed local architecture and construction companies 

about their use of SketchUp for their 3D drawings and whether they 

outsourced this design work. One large construction company was 

particularly interested in our program and provided a SketchUp 

construction job for the students in our case study to complete and 

a SketchUp expert who facilitated successful completion of the job. 

This case study was designed for participants in the 

transitional ages of 16–18 years. The local school district transition 



269 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

specialist contacted high school special educators who nominated 

students with autism with visual–spatial skills and an interest in 

technology. Enrolment required a family member (parent, sibling, 

grandparent or significant other) to be available for the designated 

two weeks in the summer, to provide transportation and attend 

the student presentation component of the workshop, and be able 

to attend a student/parent orientation. At the end of the two-week 

recruitment period, seven families registered for the orientation 

meeting. At the orientation meeting parents and students were 

introduced to the program and students participated in a SketchUp 

demonstration. Three students from previous workshops were 

recruited as peer teachers and helped with the orientation and 

participated in the workshops. Thus, a total of 10 students and 

their families attended the orientation and all participated in the 

two-week summer workshop.

Participants

Parent reports indicated that 8 out of the 10 students had an 

autism diagnosis, including Asperger’s, a high-functioning form 

of autism. One parent did not provide a diagnosis and another 

reported that their child had other related disabilities (learning 

disability and social challenges). As reported by parents, 97 

per cent of students had social problems, 79 per cent exhibited 

perseveration, 60 per cent engaged in atypical communication 

and development, and 68 per cent had mood disturbances. These 

figures were based on indicators from the Checklist for Autism 

Spectrum Disorder (Mayes et al. 2009). All of the students met 

the minimum cut-off as per the Checklist for Autism Spectrum 

Disorder for an autism diagnosis. This measure shows high 

diagnostic agreement and strong convergence with other autism 

instruments (Mayes et al. 2009). Participating students were male 

and ranged in age from 15 to 18.

Parents reported in their background information that 

the students had few friends and little success in enrichment or 

extracurricular activities. One mother in this case study wrote that 

her son did not participate in activities because he was always 

‘kicked out’. Parents reported many failure experiences when they 

had enrolled their student in previous group activities.

The program was held for three hours each weekday for the 

two-week period. In the first week, the SketchUp expert, a theme 

park designer, demonstrated SketchUp basics. Students created 3D 

models based on their interests using their newly acquired modelling 

skills. Student projects included such designs as a neighbourhood, 

a home, a dragon world, a casino, a planetary world (Figure 1) and 

an entire community (with stores, parks, homes). During the second 

week, students worked each day on the assigned SketchUp job that 

required following directions to the specifications of the construction 

company SketchUp expert (Figure 2). Specifically, the students built 

tilt panels for a building foundation.

The daily workshops followed a structured schedule that 

included a demonstration, work time, break (with a socialisation 



270 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

goal), presentations of their 3D designs and goal-setting. Students 

were paid a total of $50 for their work on the construction job, 

earning $10 per day. The program had a 100 per cent attendance 

rate for the two weeks. Many students started to come earlier than 

the 9 am start time to work on their projects. One mother, who had 

a reluctant son on the first day, said that by the end of the first week 

her son was rushing her out of the house to get to the workshop.

Goal-setting was a daily activity, in which students identified 

their accomplishments for the day and created goals for the 

following day, to help them remain focused on making progress 

with their designs. Family members participated in the goal-

setting with the students, reinforcing goals achieved and goals set. 

Goal sheets were posted at each student’s computer workstation 

to remind them of the goals. Many students referred to their goal 

sheets to plan what to do next and to see their progress.

There were daily pre- and post-evaluations by the staff that 

focused on what went well, what did not, and what modifications 

and behaviour supports were needed for individual students. For 

example, adjustments were necessary in seating arrangements 

and break activities. One facilitator, a behaviour therapist, 

created action plans and individualised accommodations that 

included headphones, additional breaks, and individually focused 

behaviour supports to keep some students on task. 

EVALUATION
Students and family members (parents, grandparents and siblings) 

were active participants in the development of the program 

through their feedback and evaluation. For this case study, parents 

and students were essential participants in program evaluation. 

These evaluations are reported on below.

Parent Evaluation

At the end of each week, the parents were given open-ended surveys 

to evaluate the program. Parents noted individualised learning, 

creativity, and increase in self-confidence, social engagement and 

flexibility as student outcomes from program participation. 

Individualised learning and creativity were identified by 

parents as contributing factors to student success. One father 

commented in relation to his son’s experience, ‘if he had a question 

about something he could raise his hand and someone would come 

over and give him individual help and that paradigm works really 

well for him’. Parents also reported that what they liked about the 

program was the ‘creative’ use of technology. In their background 

information many had expressed concern about the amount of 

time their child spent on technology (primarily gaming activities) 

– gaming was seen as unproductive time. One parent explained 

the strength of the program to be ‘the environment, the creative 

emphasis in the program, really allowed him [the son] to grow and 

thrive and I would say that would be the most valuable aspect of 

the program for him’. 



271 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

As in past workshops (Wright et al. 2011), parents reported 

that the program helped with their child’s confidence and 

increased social interactions with peers in the group and with 

family members who attended presentations, and that the students 

learned new computer skills. The opportunity to present and 

explain their designs to their classmates and family members 

encouraged positive social interaction throughout the duration of 

the workshop. The workshop provided an opportunity for students 

to see each other’s work, ask questions and provide feedback to 

each other. Many parents highlighted the social aspect of the 

program as important, however one parent noted, ‘he didn’t 

make any friends, there wasn’t a big social component for him, 

which I think actually made it more friendly for him, less anxiety 

provoking because there was not pressure on him to make friends 

or to socialize’.

One concern from parents before the workshop was the 

inflexibility of their students in dealing with unanticipated 

changes or problems. Parents also expressed concern about an 

increase in co-occurring conditions such as anxiety. Computer 

problems that had the potential to increase anxiety and 

inflexibility were encountered throughout the two weeks. The 

students, however, demonstrated flexibility by managing to 

problem solve these frustrating situations with each other and 

the facilitators. During the two weeks students had to deal with 

numerous technology issues including program crashes (when 

their designs got too large), slowing of the computer speed with 

different design elements (shadows, fog), computers freezing, and 

having to reset lost work. 

To prevent the loss of a design in the event of a program 

crash or disruption, the facilitators enabled ‘autosave’. Autosave 

saved the current version of the design at the expense of program 

speed. When students became frustrated with a lagging computer, 

facilitators gave them the option to turn off Autosave. The students 

were also prompted to save their work often. One student who 

encountered lagging computer speed opted to disable Autosave. 

He was then responsible for saving his work regularly as he was 

working on a large multi-day project. At the end of the day’s work 

period, he stood up to go to break and knocked his hard drive 

tower off the desk. He controlled his frustration and emotions 

and went to work on problem solving the situation. While other 

students went to break, he stayed with the SketchUp expert and to 

the best of his ability recreated his project for presentation time. 

Students expressed their understanding of his disappointment in 

losing his project and were complimentary about how he was able 

to reconstruct his 3D design project in a short amount of time.

Although parents worried about their students having 

emotional meltdowns due to technology frustrations, there were 

no meltdowns. Students supported each other and demonstrated 

great empathy. Another instance of flexibility occurred when 

students were unable to access the 3D Warehouse, a function 



272 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

within SketchUp that allows downloading of pre-made models into 

designs. The students decided, instead, to focus on building other 

parts of their projects. 

Although parents expressed initial anxiety about their 

student’s likelihood of success in the program given prior failure 

experiences, all participating families perceived multiple levels 

of success for their students at program completion. As one father 

said, ‘on the first day, I just waited around for the phone call [to 

come and get his son] and it never came’. It is important to note 

that both the parents and the students had experienced many 

failures together, so both perspectives were essential to program 

development and evaluation. Parents are the best source of 

information on their student’s skills, abilities and challenges.

Student Evaluation

Students were interviewed on camera about their experiences at 

the end of the two weeks; all students except one agreed to the 

video interviews. This student was interviewed and staff recorded 

his verbal responses. The purpose of the video evaluations was 

for the students to reflect on their work and their experiences 

during the workshop. Students’ self-reported successes were in the 

areas of creative, social and 3D modelling skill development and 

vocational exploration. 

An important aspect of the program that facilitated skill 

development was the interactive creative teaching and learning 

style. As one participant enthusiastically noted, ‘We were able to be 

creative and be free spirited, we can create our own objects through 

SketchUp and basically we have lee way and it’s quite easy to learn 

the program.’ Another student wrote about his experience, ‘I truly 

enjoyed sharing my work at presentation time. It helps me connect 

with others, allows feedback to be given and can give me ideas.’ 

Presentation time was also used to reinforce SketchUp tool use 

and peer-to-peer teaching as the students demonstrated how they 

created things in their designs. One student said about presentation 

time, ‘it’s fun and entertaining to show your projects. As well you 

might get some feedback on how to improve it, whether it is positive 

or negative, doesn’t matter because you can improve on it. Take 

those tips and stand and show everybody your piece of work.’ 

Students also received genuine positive feedback from 

their peers and the SketchUp experts about their designs. Students 

felt a sense of respect and accomplishment, which led to their 

having a successful experience. A student commented, ‘I think I 

was most successful in learning the tools and how to use them and 

with my self-confidence.’ One student in his video interview talking 

about what he liked best about the program said, ‘I liked meeting 

new people and learning how to use this program, to build my 

dreams’. The social component of the program was enhanced by 

students sharing their interests and talents in the presentations of 

their 3D designs.

Another aspect of program success was the student–

instructor–peer relationship dynamic. Redirecting the traditional 



273 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

teaching path from teacher to peer-to-peer and student-to-

instructor provided multiple opportunities for conversation, 

problem-solving and relationship-building. Most peer teaching is 

designed with a neuro-typical student teaching social skills to a 

student with autism (Chan et al. 2009). In this case study, students 

with autism taught one another, which was an empowering 

experience for participants in building self-confidence. The students 

quickly became comfortable with helping one another, and staff 

encouraged students to ask their peers when they had questions 

about SketchUp design tools. Three returning peer teachers who 

had attended previous workshops and had good proficiency 

in SketchUp were also present to offer assistance. The veteran 

students were strategically placed between the new students. When 

a student needed assistance, instructors would turn first to the 

veteran student to offer help. Peer teachers were guided to comment 

positively on other students’ work and to answer new student 

questions as needed while working on their own 3D designs. One of 

the peer teachers commented in his video evaluation, ‘I’ve always 

been kind of a leader so it just kind of, it was just like natural to 

me. Yeah, I was confident in myself when I helped.’ 

Students often turned to one another to figure out problems, 

but they also asked for additional help from the SketchUp expert 

or facilitators. Another peer teacher noted, ‘I get those connections 

with people, we are doing SketchUp and we comment about each 

other’s work and find out something in common like you know 

me and one kid we found out we both like movie villains and 

we talked a lot about that’. The students developed a genuine 

camaraderie with the staff and among themselves in this short 

period of time. One parent noted, ‘there was no tension with the 

boys, there was not, like in school, in high school where he was, it 

seemed like he was always on the outside’. She added, ‘He was right 

in the middle of the group, he was participating, he was enjoying, 

he was laughing, there was no tension, it was just camaraderie 

and pleasantness’. Furthermore, this camaraderie helped to 

promote peer collaboration. For example, two students worked on 

a collaborative dragon world design, and students made helpful 

suggestions on each other’s designs and adopted creative ideas 

learned from the projects presented. 

Students also gained exposure to the idea that they might 

be able to use their skills and interests in a career, something 

many of the students had not yet considered. One student stated 

in his evaluation, ‘I like that it’s sort of real world so we get some 

experience on what we would do if we were to join a company 

like that.’ Another student remarked, ‘I liked leaning about 

architecture; that was really cool.’ One student commented during 

the video interview, ‘I liked learning how this program could be 

used for modern day construction.’ And another student realised 

the real-life application of being able to build and replicate designs 

like the tilt panel foundation exactly to scale in SketchUp. He 

enthusiastically noted, ‘it was cool that this design could exist in 

the real world’.



274 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

The monetary reward at the end of week two was a highly 

motivating factor for these students. The reinforcing aspect of 

earning money enabled one student, in particular, to work through 

frustration issues that were limiting his ability to complete work. 

The initial work period of 30 minutes would earn the student $10. 

As the facilitator could see his agitation increasing, she put a note 

by him that said, ‘You have already earned $5. Would you like to 

try for another $5?’ Reinforcing that he had already successfully 

earned part of a pay cheque for his work redirected his focus away 

from frustration and back to being a successful employee. When 

he became frustrated with assembling a part of the building, he 

worked through his limited ability to accept suggestions from other 

people. Students were explicitly told that they were being paid for 

their time spent working on task. Pay was not dependent on task 

completion. However, students were very motivated to keep up 

with the work of their peers. They were very focused on their job, 

as well as finishing their own creative project. One student wrote 

in his evaluation, ‘I like to share because I like to show what I can 

do. I like sharing my hard work.’ This sense of accomplishment 

was motivating for students. One student ended his evaluation 

interview with ‘I want to thank you for helping me learn about 

SketchUp, helping me prepare for a job, and I made a lot of friends 

here.’ Another student remarked, ‘It was good actually quite fun, 

just because I was able to make friends. I was able to knock my 

passion of creating new things, when it comes to graphics, and 

basically be able to use my imagination the way I feel fit.’ 

This positive, supportive learning environment fostered 

student success in technology skills and in the social engagement 

domain. Through shared interests, students developed authentic 

friendships with their peers in the program. They shared contact 

information (unprompted) and went to each other’s homes, and 

one student had a party and invited all of the enrolled students 

(and most of the students came). 

This case study shows successful application of 3D skills 

and completion of an assigned job by students with autism who 

were paid a stipend. The 3D modelling skills students learned 

in the workshop can translate into a number of different careers 

that the students were exposed to by the SketchUp experts (theme 

park designer and construction manager). Students not only 

gained technology skills, but also learned and demonstrated the 

essential vocational preparation skills of critical problem-solving 

and self-monitoring. 

DISCUSSION
This university-community partnership focused on developing 

technical and vocational skills in young people with autism, and 

the program provided a place to practise flexibility, problem-

solving skills and social skills in an accepting environment. Within 

this positive, supportive environment, students gained confidence 

as they experienced success. Most students who come to the 

workshops have a history of failure. On any given intake form, 



275 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

failed attempts at involvement in activities and social isolation are 

indicated. In the current study, several elements of the program 

overcame these failure experiences, including staffing expertise 

and the strength of the community partnership, which are 

discussed below.

Staffing

A component of the success of this case study was staffing 

expertise. The study involved two SketchUp experts: the theme park 

designer taught SketchUp basics in week one and the construction 

manager guided the students through the work project in week 

two. Two graduate students experienced in working with students 

on the autism spectrum served as facilitators in both weeks. One 

of the graduate students was a special educator with positive 

behaviour support training. She took the lead in assisting the 

SketchUp experts and managing any behaviour issues that arose. 

She used the competing pathway model for developing behaviour 

support plans (O’Neill et al. 2015). Our research team had 

previously documented the characteristics of SketchUp experts 

and facilitators that lead to student success (Diener et al. 2015). 

These characteristics included patience, enthusiasm, humour and 

sensitivity to individual student needs, all of which are elements 

of a positive supportive environment. The staff also helped to 

maintain this environment by focusing on the students’ positive 

behaviours and problem-solving behaviour issues as they arose. 

The SketchUp experts were professionals in a field that 

used SketchUp and they led the SketchUp instruction. Lessons 

were brief and individual assistance was provided as the design 

expert walked around the classroom. The facilitators had strong 

positive behaviour support skills (Diener et al. 2015). The SketchUp 
expert in week one was a theme park designer who was part of the 

design team that created the Harry Potter theme park at Universal 

Studios, Florida. That wow factor, coupled with impressive 

computer skills, made him a cool guy in the eyes of the students. In 

the facilitator SketchUp training before the workshop, he modelled 

how he teaches lessons. He demonstrated a few of the fundamental 

design tools to the workshop facilitators, and then said, ‘In the 

workshop, you don’t need to worry about the kids looking at the 

screen during my lesson – they’re listening.’ He emphasised, from 

his experience from previous workshops, that students don’t need 

to demonstrate traditional behaviours of ‘paying attention’ such 

as eye contact with the instructor, or looking at the screen. ‘They’re 

taking it all in – trust me’, he said. The format of the workshop 

encouraged students to ask the expert questions. As he answered, 

he validated their question and treated it as a professional 

problem-solving collaboration. 

The case study experts and facilitators limited their 

involvement to answering questions, encouraging collaboration 

and proactively supporting positive social behaviour. The approach 

emphasised being a ‘guide on the side’ and the instruction team 

created a supportive learning environment designed specifically 



276 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

around the learning styles and interests of the students. The 

instructors accepted the differences in the students and embraced 

their quirkiness. 

University-Community Collaboration

Most importantly, this university-community collaboration was 

very successful in its joint mission of teaching students with ASD 

3D modelling as a potential employment skill. It was a particularly 

successful collaboration that reached its goal of ‘every student 

needs to experience success’. Yet, there are always challenges in 

university-community collaborations in balancing missions and 

resources. For example, coordination across four large agencies 

(university, school district, community centre, construction 

company) required many meetings and negotiations. Also, a 

member of the community centre was recruited and trained to 

become a facilitator and work alongside the implementation 

team. However, by the end of the program, she had taken another 

position in another state. This transition left a gap in our goal of 

sustainability. 

As noted previously, there were many technology challenges, 

and off-site technical assistance was required from the school 

district. This created some problems when the weekly passwords 

were changed without notification and the wrong version of 

SketchUp was loaded onto the computers (instructors did not have 

access to download programs). The school district had planned 

a technology system check during the summer, but the internet 

connection to access the 3D Warehouse was not available to our 

students. Another challenge occurred when the fire alarm went off 

30 minutes before the first class session; fortunately, the instructors 

were able to convince the administrators to shorten the emergency 

drill so that it was not going on when the students arrived. Given 

the students’ typical hypersensitivity to their environment, 

this could have been a disastrous start. These technology and 

administrative issues were unanticipated.

Student behaviours were sometimes challenging and our 

interdisciplinary team in pre- and post-conferences problem-solved 

such situations. On many occasions our community partners 

joined in the daily evaluations and provided suggestions and 

resources. For example, some students struggled with staying on 

task and needed more breaks, which required coordination with 

the busy community centre staff and clients. Individual positive 

behaviour support plans were developed to address situations that 

might arise. For example, one student had an auditory processing 

disorder and would become very anxious if too many instructions 

were given, so a staff member began working with him one-on-

one. Although one of the goals of the program was increased social 

engagement, one student did not want any social interaction with 

other students or staff. Surprisingly, he attended the party held 

by one of the students and commented to the staff, ‘These kids [in 

the workshop] just talk too much’. One student, in particular, had 

a difficult time containing his comments during presentations 



277 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

and irritated a few students with his constant talking during work 

time. Another student frequently went to other sites on the internet 

(breaking a program rule) and had to be monitored closely by 

the staff. Thus, behaviour challenges were a daily occurrence that 

required skilled team members familiar with positive behaviour 

strategies (Schall 2010).

CONCLUSION
This case study presented a university-community based 

technology program that matched the skills and abilities of 

students with ASD. In addition, social interactions were naturally 

facilitated through the program design. Although some professions 

might be critical of the program not being inclusive (serving 

only students with autism), most of our students are in inclusive 

settings and this was an opportunity to show their talents and 

abilities to similar peers. Behavioural issues were minimised 

because students were highly motivated to create designs based 

on their interests and were paid for their work for the construction 

company. Professionals could replicate this experience for some 

students with autism by similarly focusing on technology skill 

development. Additionally, a community engaged program brings 

more stakeholders to the agenda of providing students with ASD 

job opportunities that match their strengths and abilities. 

One profession overlooked in this partnership was vocational 

rehabilitation (VR). Our community partners made us aware of 

the mandate that 15 per cent of each state’s public VR funds must 

be used for transition services (Sung et al. 2015). We are currently 

working with our state agency, which has identified clients with 

ASD for transition funding in our program. With its focus on 

technology skill development for clients with ASD, our program is a 

nice complement to the many services being provided by VR. Many 

professionals, including vocational rehabilitation counsellors, 

struggle with the complexity of behaviour issues associated with 

clients with ASD and employment (Nicholas et al. 2015). 

An emerging theme in the literature is the pivotal role of 

employment services, the school system, transition planning and 

the building of community partnerships in facilitating efficacy 

in vocational rehabilitative services (Gal et al. 2015; Jacob et al. 

2015; McDonough & Revell 2010; Schall 2010; Sung et al. 2015). 

For example, some research has emphasised the importance of 

social support, mentoring, vocational opportunities and successful 

outcomes during the transition to adulthood (Tobin, Drager & 

Richardson 2014). Chappel and Somers (2010) propose that school 

systems and their vocational rehabilitation partners need to 

make a commitment to work together to provide a comprehensive 

transition plan for students with ASD. Community partnerships 

are also essential to successful programming.

More important is the premium placed on developmentally 

appropriate strategies for transition-age students with ASD 

(Tantum 2014). Although there are difficulties and challenges for 



278 | Gateways | Wright, Wright, Diener, Rafferty & Sampson

the individual with ASD, in recognising and helping to develop 

their strengths there is potential for a fulfilling life (Lai et al. 2013; 

Wright et al. 2014b; Wright 2016). 

Future directions, as an extension of the workshops, include 

the development of internships and supported employment. 

Parents expressed many concerns about their student’s future. 

One mother said, ‘it would be wonderful if there was a work 

study program, he could get his feet wet, even without pay would 

be great. We would jump at the opportunity.’ The international 

navigational company Trimble (which owns SketchUp) is 

supporting this aspect of the program and providing the necessary 

in-kind services for development. Students on the autism spectrum 

need multiple levels of positive support for successful employment, 

and a model is being developed in collaboration with Trimble that 

incorporates mentors, managers and job coaches. 

University-community collaborations and university-based 

partnerships are promising strategies to resolve the unacceptable 

rates of unemployment and underemployment of students with 

ASD (Chappel & Somers 2010; Sung et al. 2015; Wehman et 

al. 2014c; Wilczynski, Trammell & Clarke 2013). In summary, 

well-designed community partnership programs and services 

that are implemented in a strategic fashion and targeted at 

optimal age levels can improve adaptive skills in individuals with 

ASD (Wehman et al. 2014a). Furthermore, it has been shown 

that supported employment services for individuals with ASD 

involving many community partners, including universities, 

are a worthwhile investment and can lead to economic benefits 

by decreasing lost productivity and resources costs (Jacob et al. 

2015). As Wehman et al. (2014b, p. 35) have indicated, ‘… youth 

with ASD have significant untapped potential that has been 

underappreciated’. Many students with ASD have hidden talents 

that can come to light with a program like NeuroVersity that 

highlights strengths and abilities of the autism condition. And 

as one student in this job-focused case study summarised the 

program, ‘it’s just a group of people who get together to be open, 

free minded and able to socialize and while directing to one goal 

to use SketchUp to create your wildest dreams’. 

The scaffolding to build the bridge across the barriers and 

challenges of the transition years for youth with autism requires 

many stakeholders, including university personnel, businesses, 

community services, parents and students, to come together to 

make a difference. 

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Figure 1: Three-dimensional 
design created by a student, 
2014

Figure 2: SketchUp Design 
Construction Project, with 
two-dimensional plans at 
left, and 3D SketchUp Design 
with embellishments at right

http://www.hoajonline.com/autism/2054-992X/1/1