Jutta Treviranus


Jutta Treviranus is a full Professor at the Ontario College of Art and Design University in Toronto, Canada. She is the Director and Founder of the Inclusive Design Research Centre and the Inclusive Design Institute.
Treviranus is a world expert in the field of Inclusive Design and has made appearances at the White House and United Nations. An outspoken opponent of the scientific method and statistical reasoning, she has "led many international multi‐partner research networks that have created broadly implemented technical innovations that support inclusion." Her work has included designing open source content and helping implement accessibility legislation, standards, and specifications. In 2013, the Governor General of Canada awarded Treviranus the Queen's Diamond Jubilee Medal. ZoomerMedia chose Treviranus as one of Canada's Top 45 over 45 in 2012.

Career and education

Treviranus graduated from University of Toronto in 1981 with a B.Sc. in Occupational Therapy. In 1994, she earned a M.A. in Special Education from University of Toronto; she continues to pursue post graduate work at University College Dublin,
Ireland.
At the beginning of her career, for the first personal computers – the Apple II Plus, the Tandy Model 100, the Texas Instruments computers, and later the Commodore 64 and Vic 20 – Treviranus designed alternative access systems for people with disabilities. She was assisted by experts at the University of Washington, the National Research Council Rehabilitation Technology Unit and the Microcomputer Application Program at the Hugh MacMillan Centre.
This project began while Treviranus was under contract as a tutor at McMaster in the Faculty of Health Sciences to integrate 12 students with disabilities into McMaster University in compliance with Bill 82, the Ontario Education Act by the Education Amendment Act, 1980, which states that "the responsibility of school boards to provide in accordance with the regulations, special education programs and special education services for their exceptional pupils."
The McMaster experience "was a pivotal moment for Treviranus and inspired her work with people with disabilities and in the field of Inclusive Design."
In 1994, Treviranus founded the Adaptive Technology Resource Centre at the University of Toronto. Her first major research project was in collaboration with SoftQuad and Yuri Rubinsky, funded by Canarie. The goal of the project was to embed accessibility support, in the form of an on-screen "visual dynamic keyboard" that offered various text-entry methods, into HoTMeTaL, an early HTML editor. This in part, with Mike Paciello's help, led to the formation of the Web Accessibility Initiative of the W3C.
Treviranus moved the ATRC to OCAD University in 2010 and rebranded it as the IDRC. "She has played a leading role in developing accessibility legislation, standards and specifications internationally ".
In 2000, Treviranus was a chief expert witness in Maguire v SOCOG 2000 an Australian human rights case regarding the inaccessibility of the Sydney Olympics. Bruce Maguire won the case leading to changes in accessibility requirements at international games. Further, as a result of this case, the Australian government made the decision to require its agencies to employ W3C Guidelines.
In 2007, Treviranus was an expert witness in the Donna Jodhan Canadian Supreme Court case whose verdict compelled the Canadian Government to make all of their websites accessible.
As the founder of the IDRC and the IDI, one of the areas that Treviranus focuses her efforts on is making the internet accessible through research on assistive tools such as screen readers, touch pads and joysticks. Treviranus’s research has been used by the Government of Ontario Diversity Office as well as by the United Nations to create disability policy such as the Convention on the Rights of Persons with Disabilities. Her work is the focal point of a feasibility study by the United States Department of Education on accessibility.
As a university professor, she established a new Master of Design in Inclusive Design programme at OCAD University in 2010. The MDes ID programme teaches the fundamentals of Inclusive Design. "Part of the reason I came to OCADU was because there was the opportunity to start a new graduate program." What is unique about the MDes ID programme is that the students in the programme are selected for their diversity – from a very wide range of interests and expertise.
In 2012 Treviranus cofounded the annual Designing Enabling Economies and Policies Conference to "engage in substantive in-depth discussion about implementation strategies for digital inclusion of persons with disabilities among decision makers promoting the Convention on the Rights of Persons with Disabilities in their respective countries; To identify levers and innovative approaches that go beyond current strategies."
Treviranus is the lead project editor of the ISO 24751 standard, ISO/IEC JTC 1/SC 36, which supports automatic matching of user accessibility needs with digital resources and user interface configurations. Jutta Treviranus chairs the Authoring Tool Accessibility Guidelines Working Group of the World Wide Web Consortium Web Accessibility Initiative.

Current appointments

Jutta Treviranus, as well as working as a full professor in the Faculty of Design at OCAD University, is Graduate Program Director in the Inclusive Design Graduate Program. She is also Director of the Inclusive Design Research Centre at OCAD University. She is Principal Investigator, Inclusive Design Institute. She is the Chair, Web Access Initiative, W3C, Authoring Tools. Treviranus is the Canadian Head of Delegation of the ISO JTC1 SC36 working group and Co-Director of Raising the Floor International.

Research areas

Inclusive education

Jutta Treviranus has written extensively on Inclusive Education. "We need to design these systems, and our policies, so that they are accessible to everyone," Treviranus wrote.

Policy development and policy analysis

Treviranus has written that an information model is required so that education delivered by web based systems can be tailored to the specific needs of each student. Because information devices and delivery systems are so easy to change, and are flexible, that allows for infinite permutations so that obstacles faced by disabled students can be overcome. Further, Treviranus asserts that when educational resources are shared that further enhances an education system's ability to provide a match for each student's needs. An embodiment of these ideals is the open educational resources community since it has the potential to rectify several of the flaws of traditional education. One way to stop OERs from experiencing the same problems as traditional education is to embrace imperfection. She notes that another risk to inclusive education is the overuse of the big data statistical analysis which can be used to justify non-inclusion.

PEBBLES

PEBBLES is a project funded and supported by Wayne Gretzky in the late 1990s, and several other funders.
"Through the use of videoconferencing and robotics, the Pebbles Project is able to connect a hospitalized child with his or her classroom in order to minimize loss of social and intellectual stimulation and to facilitate reentry into the classroom after hospital discharge." According to Time magazine, "the robots, created by Toronto-based Telbotics, work in pairs. One with a 15-in. LCD screen for a face goes to school in the absent child's place. The other remains in the hospital, transmitting an image of the child's face to the classroom. Using a video-game-style controller, the child can direct the school robot to raise its hand to ask a question or swivel its head to follow the teacher."
Treviranus et alia noted that, "The results indicate that, overall, PEBBLES has a very positive effect on both the young and adult participants; the most dramatic effect of all was on the ill child who used PEBBLES to attend school." Treviranus has been involved with computer technology, robotics and learning from the very beginning.

e-Learning

Treviranus has argued that the outliers in any society are frequently the true innovators. She writes that educating these people through electronic means makes very good sense, especially because this group may contain the shy, the gifted or sensorially challenged – plus, marginalization largely depends on context. Another observation that Treviranus makes is that by breaking down digital barriers and therefore making education more inclusive has advantages for all learners, including non-PWDs, such as causing the learning environment to become much more open, fluid and accepting of individual talents and interests. Taking further the abstract notion of serving individual learners, Treviranus discusses an accessibility strategy called Access For All that hones in on the need for accessible automated systems to collect resources and spread this network globally.

Inclusive digital education techniques

Problem: much education disseminated over long or short distances, but not in a physical classroom, lacks some, or all of the educational modalities required by a very large of group of students with disabilities, namely, for the blind or learning disabled, ways of receiving information by touch,, and /or tactile manipulation, for example. To arrive at, perhaps, a potential solution/direction of a solution, to the problem, Treviranus conducted research that examined the understanding of spatial ideas like geography by using a number of non-visual techniques: haptics, 3D real world sounds and talking to figure out the best ways to communicate various kinds of data.

Inclusive computer technology and inclusive internet

Public policy

In the context of an ever increasingly digital economy, and the requirement/tendency to combine technology of all sorts into everyday life, there is a potential problem for even larger numbers of people to become marginalized since accessible technology only meets the needs of a few, be it at a very high cost, and this accessible technology is frequently not compatible with newer technology – and, so destined to fail. A public policy response to this is the creation of a Global Public Inclusive Infrastructure that will access, by way of the cloud, a pool of resources that will marry supply and demand so that accessible technology will be automatically provided to every individual that needs it so that they will not have to justify, or bargain. GPII is a global collaboration with end-users and programmers/developers and industry players that has designed a platform, premised on the one-size-fits-one philosophy, with three major parts: firstly, a system to users to determine the best interface for them, located in the cloud; secondly, a way to cause all digital interfaces they come across to adapt to their needs instead of vice versa; and, thirdly, provide the data and digital design and programming techniques for both mainstream and assistive technology developers more economically efficiently.
Treviranus has observed that human-computer interaction researchers working on projects such as GPII are more than ever impacted by public policy considerations from not only government bodies but also from both the corporate world and NGOs, for example organizations that set standards such as the ISO group.
Another public policy notion that Treviranus describes is the curb-cut phenomenon that envisions how the new technology and other modes of accommodating PWDs will be scaled up and used to economically benefit the broader majority – not only PWDs.

Tools and approaches

As early as 1992, Treviranus had begun working in the field of Inclusive Design. In, 'An Overview of Human-computer Interaction Techniques for People with Physical Disabilities,' Treviranus and her team stressed that being able to have physical contact with computers is of essential importance for people with disabilities; they researched a large array of cutting edge technological solutions that allowed users with a variety of physical impairments to use and interact with computer technology. The paper anticipates changing input devices like keyboards and mice to technology involving switches to allow for the physical difficulties of users.
Developing from the notion that the disabled require interaction with technology, Treviranus goes on to postulate that the alternative technological techniques that are being developed to be used with computers be as easy to use as the control mechanisms they replace such as speech or touch-typing for example. This idea is further developed with suggestion that computer interfaces fit each individual user no matter where they encounter the interface – from public workstation to online learning environments.
For the Web Accessibility Initiative, in 1999, Treviranus co-edited Authoring Tool Accessibility Guidelines. This text helped web developers to, firstly, design authoring tools that create web content that is accessible and, as well, secondly, to help them to design accessible authoring tool user interfaces. By 2008, Treviranus was able to outline how important authoring tools are to the process of creating accessible websites. By using tools that adhere to the standards established by the W3C Authoring Tool Accessibility Guidelines, developers of websites who are not familiar with accessibility concerns, or who are not enthusiastic about helping people with disabilities, end up producing accessible sites because the tools they are using are pre-set to create accessible content by default.
To further understand the need for accessible technology, for example, Treviranus describes the adaptation and substitution of ordinary input mechanisms like keyboards and mice with switches that allow the physically disabled to have access to digital technology.

Selected works

Peer-reviewed journals

Honours and awards