Claire Davies

Assistant Professor, Faculty of Engineering and Applied Science, Mechanical and Materials Engineering Queen's University

  • Kingston ON

My primary research goal focuses on increasing independence of people with disabilities

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Biography

My interest in biomedical engineering evolved while volunteering at Bloorview Children’s Hospital (now Holland Bloorview Kids Rehabilitation Hospital). I found that the technology available to these children did not allow them the freedom of other children. I have since dedicated my research career to improving the lives of people with disabilities. My research is diverse covering three main areas: biomaterials, motion analysis and assistive technology.

My primary research goal focuses on increasing independence of people with disabilities. Understanding the perceptual and physical responses of the senses, primarily vision, haptics and sound, has given me insight into how design of devices should be undertaken to create human-machine interfaces that are easily navigated and accepted. After spending several years designing to meet the needs of specific clients, I have realised the need for universal design. Universal design is becoming increasingly popular such that devices should be easy to use by all people without the need for adaptation.

I am currently an assistant professor in Mechanical and Materials Engineering at Queen’s University with an honorary senior lecturer appointment in the Departments of Surgery and Mechanical Engineering at the University of Auckland. Most of my work is interdisciplinary and seeks to combine input from both clinicians and engineers in the design of medical technologies. Some of the student projects of which I am the primary supervisor include development of a system that will allow tailored reminiscence therapy for individuals with cognitive impairment, development of a boccia ramp for paralympic athletes, development of an umbrella for individuals with muscular dystrophy, and methods to simplify computer tasks for youth with cerebral palsy.

I continue to expand my areas of research to establish more evidence based evaluations of individuals with assistive technology. Improvements to prosthetic and orthotic design will allow increased efficiency of human movement. Increasing the universality of assistive technology will enable more effective use of devices. Interface design that provides ease of use is essential to the acceptance by all individuals. My research projects allow engineering students to engage with clinicians and complete design projects that are clinically relevant. Expanding this research can increase the productiveness of all individuals and allow them to become more confident members of our society.

Areas of Expertise

Biomaterials
Motion Analysis
Assistive Technology
Increasing Independence of People with Disabilities
Universal Design
Materials Engineering

Accomplishments

Emerging Researcher Award

2014

Auckland University Engineers Association

National AMP Scholarship

2013

Advice First Innovator’s Award

2013

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Education

University of Auckland, Department of Surgery

Postdoctoral Research Fellowship

2010

University of Waterloo

Ph.D.

Systems Design Engineering

2008

University of Waterloo

Graduate Certificate

University Teaching

2005

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Affiliations

  • Professional Engineers Ontario : Licensed Member
  • American Academy of Cerebral Palsy and Developmental Medicine : Member
  • Australasian Academy of Cerebral Palsy and Developmental Medicine : Member
  • Cerebral Palsy Society : Member

Media Appearances

Davies: Online testing set Ontario students up to fail

Ottawa Citizen  

2016-10-26

Last week we set up Grade 10 students across the province for failure. We used them as guinea pigs to test a deeply flawed online system that already has a history of letting us down.

The Ontario Secondary Schools Literacy Test has always been a pen-and-paper affair. This year, for the first time, 100,000 young people would trial the test online...

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Mind control. Harnessing brain waves to move objects on a screen

CBC Ontario Morning with Wei Che  

2015-12-03

CBC Ontario Morning with Wei Che

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Ultrasound device to help visually impaired navigate

Our Changing World, Radio New Zealand with Ruth Beran  

2014-08-28

“A signal is sent out at ultrasound, through a transmitter that the person can hold in their hand. Reflections from the environment come back to the individual and can be picked up with receivers,” says Claire Davies, a senior lecturer at the University of Auckland. “Those receivers can actually convert the sound into an audible range signal, so users can actually hear the obstacles around them.”...

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Event Appearances

Expansion Cursor: A Zoom Lens that can be Voluntarily Activated by the User at Every Individual Click

Proceedings of the 28 th Australia Conference on Human Computer Interaction  Australia

2016-11-01

The Effect of Surface Electromyography Placement on Muscle Activation Amplitudes and Timing

IEEE EMBS International Student Conference  Ottawa, ON.

2016-05-01

The Ethical and Practical Issues Surrounding the Design of Assistive Technology for Individuals with Severe Physical Disability and Complex Communication Needs

Proceedings of the 28 th Australia Conference on Human Computer Interaction  Australia

2015-11-01

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Research Grants

Increasing Independence through access to Technology

NSERC Discovery Grant

2016 - 2021

Principal Investigator

The Impact of Emerging Technology on Developing and Accessing Assistive Technology. Principal Investigator

SSHRC Knowledge Synthesis Grant

2016 - 2017

Principal Investigator

Technology for Health Engineers in Clinical Residence Seed Project Funding. Principal Investigator with Bruce MacDonald

Strategic Research Initiative Fund, University of Auckland

2015 - 2016

Principal Investigator

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Articles

A real-time computational model for estimating kinematics of ankle ligaments

Computer Methods in Biomechanics and Biomedical Engineering

2016

An accurate assessment of ankle ligament kinematics is crucial in understanding the injury mechanisms and can help to improve the treatment of an injured ankle, especially when used in conjunction with robot-assisted therapy. A number of computational models have been developed and validated for assessing the kinematics of ankle ligaments. However, few of them can do real-time assessment to allow for an input into robotic rehabilitation programs. Method: An ankle computational model was proposed and ...

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Training to use a commercial brain-computer interface as access technology: A case study

Disability and Rehabilitation: Assistive Technology

2016

Purpose: This case study describes how an individual with spastic quadriplegic cerebral palsy was trained over a period of four weeks to use a commercial electroencephalography (EEG)-based brain-computer interface (BCI). Method: The participant spent three sessions exploring the system, and seven sessions playing a game focused on EEG feedback training of left and right arm motor imagery and a customised, training game paradigm was employed. Results: The participant showed improvement in ...

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Optimal Web-Based Survey Design in the Youth Population

Paediatric Rehabilitation Engineering: From Disability to Possibility

2016

Online Web-based surveys are becoming increasingly popular compared to paperand-pen-based surveys when evaluating services or products. This is largely due to reduction in costs, the ease of reaching a geographically diverse population and the ability to analyze and report up-to-the-minute results (Schmidt 1997). Web-based surveys have been used to evaluate education (Layne, DeCristoforo, and McGinty 1999), healthcare (Grant et al. 2010) and public opinion (Angus Reid Global Monitor) and have proven very effective at ...

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