Publications

Information and communication technology (ICT) tools can have a catalytic effect in advancing both educational access and learning outcomes for children with disabilities. Despite tremendous potential, a gap exists between technology advancements and their large-scale application in educating children with disabilities in low- and middle-income countries. This landscape review of ICTs for disability-inclusive education by the Inclusive Education Initiative seeks to understand the current status and trends in the practice of educational technology (EdTech) and the use of ICT in improving the educational participation and outcomes of children with disabilities. The review explores what factors enable or restrict this improvement within the wider EdTech ecosystem.

GDI Hub partnered with the World Bank to design and conduct the research, and author the ICT Landscape review: The use of ICT in improving the educational participation and outcomes of children with disabilities.

This report is a global knowledge product from the Inclusive Education Initiative (IEI)—a multi-donor trust fund on disability-inclusive education managed by the World Bank, with support from the Norwegian Agency for Development Cooperation (Norad) and the United Kingdom’s Foreign, Commonwealth and Development Office (FCDO).

World Bank. 2021. A Landscape Review of ICT for Disability-Inclusive Education. © World Bank.

Shape changing materials create a unique opportunity to design reconfigurable tactile display actuators. In this paper, we present a method that transforms a single thin monolithic sheet of Nitinol into a passive reconfigurable tactile pixel array at Braille resolution. We have designed a 27x27 tactile pixel array in which each pixel can be selectively actuated with an external source of heat. The pixels rise 0.4mm vertically with a peak blocked force of 0.28kg and have an average blocked force of 0.23kg at room temperature. After cooling, the pixels can be mechanically reconfigured back to their flat state for repeatable actuation. We demonstrate this actuator’s interactive capabilities through a novel erasable tactile drawing interface.

T. Bhatnagar, N. Marquardt, M. Miodownik and C. Holloway, "Transforming a Monolithic Sheet of Nitinol into a Passive Reconfigurable Tactile Pixel Array Display at Braille Resolution," 2021 IEEE World Haptics Conference (WHC), 2021, pp. 409-414, doi: 10.1109/WHC49131.2021.9517239.

Most research which investigates stigma towards with people with disabilities and the use of Assistive Technology (AT) are based in the Global North and focus on the experiences of people with disabilities and the consequences that stigma has on choices surrounding AT. However, stigma is a societal construct rooted in the attitude and beliefs that people without disabilities hold on disability and AT. Furthermore, the portrayal of people with disabilities and AT is dependent on the social context. In this paper, we examine how young Kenyans without disabilities view people with disabilities and AT users. Findings show that while the portrayal of disability is often shaped by negative emotion, participants felt that many of the barriers affecting people with disabilities were created by society. Perceptions of AT differed –devices were not only seen as a mark of disability but also as a sign of access to resources. Therefore, what we see is an emergent picture where social barriers can be reinforced by poverty, and where poverty reinforces social barriers faced by people with disabilities. We conclude that access to appropriate technology alongside societal interventions tackling incorrect beliefs about disability can help to overcome the stigma faced by people with disabilities.

Giulia Barbareschi, Norah Shitawa Kopi, Ben Oldfrey, and Catherine Holloway. 2021. What difference does tech make? Conceptualizations of Disability and Assistive Technology among Kenyan Youth: Conceptualizations of Disability and AT. In The 23rd International ACM SIGACCESS Conference on Computers and Accessibility (ASSETS '21). Association for Computing Machinery, New York, NY, USA, Article 18, 1–13. DOI: https://doi.org/10.1145/3441852.3471226

Orientation and mobility (O&M) training provides essential skills and techniques for safe and independent mobility for blind and partially sighted (BPS) people. The demand for O&M training is increasing as the number of people living with vision impairment increases. Despite the growing portfolio of HCI research on assistive technologies (AT), few studies have examined the experiences of BPS people during O&M training, including the use of technology to aid O&M training. To address this gap, we conducted semi-structured interviews with 20 BPS people and 8 Mobility and Orientation Trainers (MOT). The interviews were thematically analysed and organised into four overarching themes discussing factors influencing the self-efficacy belief of BPS people: Tools and Strategies for O&M training, Technology Use in O&M Training, Changing Personal and Social Circumstances, and Social Influences. We further highlight opportunities for combinations of multimodal technologies to increase access to and effectiveness of O&M training.

The literature shows that research into the aesthetic aspects of prostheses is limited. Although there are suggestions that prostheses with high levels of emotionally-driven design may improve users’ well-being, they are based only on theoretical findings. Therefore, in this thesis, the effects of emotionally-driven prostheses on users’ lives and society’s attitudes were explored, with respect to culture and more specifically, the theories of individualism/ collectivism. In order to investigate the effects of culture, the research was conducted in two countries with different cultures; the UK (individualistic) and Greece (collectivistic). The thesis began with a literature review across three core areas: user, product and environment, and revealed the importance of investigating an additional area; that of prosthetists. The research employed a qualitative approach and consisted of four studies. Study I was an online questionnaire to explore users’ preferences towards prostheses, with respect to their culture. Study II consisted of semi-structured interviews and informational probes to comprehend the role of prostheses on users’ lives, with respect to prosthetic appearance. In Study III, the aim was to investigate prosthetists’ attitudes towards the needs of prosthetic users by conducting semi-structured interviews. Finally, Study IV was an online questionnaire to explore non-users’ attitudes towards the design of prostheses. The research showed that the use of prostheses for the completion of users’ body was not an adequate factor to improve their well-being, and a shift on users’ desires towards emotionally-driven prostheses has occurred. From the variables that were tested, sex, age, cause and area of limb-loss may affect people’s attitudes towards the design of prostheses. Furthermore, the results showed that prostheses with high emotionally-driven design evoked emotions, in both users and non-users, with higher levels of pleasantness and arousal than the emotions that were elicited by the prostheses of lower emotionally-driven designs and thus, they may trigger a greater behavioural reaction. This suggested that emotionally-driven prostheses may eliminate users’ stigmatisation by increasing their self-confidence and altering society’s attitudes. However, attention needs to be paid in collectivistic countries, as emotionally-driven prostheses may enhance users’ stigmatisation.

Vlachaki, Anna (2020): Emotionally-driven prostheses: exploring the effects on users’ lives and societies’ attitudes in the UK and Greece. Loughborough University. Thesis. https://doi.org/10.26174/thesi...;

Additive Manufacturing (AM) often known by the term three-dimensional printing (3DP) has been acknowledged as a potential manufacturing revolution. AM has many advantages over conventional manufacturing techniques; AM techniques manufacture through the addition of material - rather than traditional machining or moulding methods. AM negates the need for tooling, enabling cost-effective low-volume production in high-wage economies and the design & production of geometries that cannot be made by other means. In addition, the removal of tooling and the potential to grow components and products layer-by-layer means that we can produce more from less in terms of more efficient use of raw materials and energy or by making multifunctional components and products. The proposed Centre for Doctoral Training (CDT) in Additive Manufacturing and 3D Printing has the vision of training the next generation of leaders, scientists and engineers in this diverse and multi-disciplinary field. As AM is so new current training programmes are not aligned with the potential for manufacturing and generally concentrate on the teaching of Rapid Prototyping principles, and whilst this can be useful background knowledge, the skills and requirements of using this concept for manufacturing are very different. This CDT will be training cohorts of students in all of the basic aspects of AM, from design and materials through to processes and the implementation of these systems for manufacturing high value goods and services. The CDT will also offer specialist training on aspects at the forefront of AM research, for example metallic, medical and multi-functional AM considerations. This means that the cohorts graduating from the CDT will have the background knowledge to proliferate throughout industry and the specialist knowledge to become leaders in their fields, broadening out the reach and appeal of AM as a manufacturing technology and embedding this disruptive technology in company thinking. In order to give the cohorts the best view of AM, these students will be taken on study tours in Europe and the USA, the two main research powerhouses of AM, to learn from their international colleagues and see businesses that use AM on a daily basis. One of the aims of the CDT in AM is to educate and attract students from complementary basic science, whether this be chemistry, physics or biology. This is because AM is a fast moving area. The benefits of having a CDT in AM and coupling with students who have a more fundamental science base are essential to ensure innovation & timeliness to maintain the UK's leading position. AM is a disruptive technology to a number of industrial sectors, yet the CDTs industrial supporters, who represent a breadth of industrial end-users, welcome this disruption as the potential business benefits are significant. Growing on this industry foresight, the CDT will work in key markets with our supporters to ensure that AM is positioned to provide a real and lasting contribution & impact to UK manufacturing and provide economic stability and growth. This contribution will provide societal benefits to UK citizens through the generation of wealth and employment from high value manufacturing activities in the UK.

Kelly, Sarah (2020): Design rules for additively-manufactured wrist splints. Loughborough University. Thesis. https://doi.org/10.26174/thesi...;