Nigel W. John scite author profile

This review paper discusses the role of haptics within virtual medical training applications, particularly, where it can be used to aid a practitioner to learn and practice a task. The review summarizes aspects to be considered in the deployment of haptics technologies in medical training. First, both force/torque and tactile feedback hardware solutions that are currently produced commercially and in academia are reviewed, followed by the available haptics-related software and then an in-depth analysis of medical training simulations that include haptic feedback. The review is summarized with scrutiny of emerging technologies and discusses future directions in the field.

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A review of virtual environments for training in ball sports

Miles¹,

Pop²,

Watt³

et al. 2012

Computers & Graphics

195

139

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Three-dimensional freehand ultrasound: Image reconstruction and volume analysis

Barry¹,

Allott²,

John³

et al. 1997

Ultrasound in Medicine & Biology

182

101

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Augmented Reality for Anatomical Education

Thomas

John

Delieu

2010

Journal of Visual Communication in Medicine

120

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The use of Virtual Environments has been widely reported as a method of teaching anatomy. Generally such environments only convey the shape of the anatomy to the student. We present the Bangor Augmented Reality Education Tool for Anatomy (BARETA), a system that combines Augmented Reality (AR) technology with models produced using Rapid Prototyping (RP) technology, to provide the student with stimulation for touch as well as sight. The principal aims of this work were to provide an interface more intuitive than a mouse and keyboard, and to evaluate such a system as a viable supplement to traditional cadaver based education.

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The Implementation and Validation of a Virtual Environment for Training Powered Wheelchair Manoeuvres

John

Pop

Day

et al. 2018

IEEE Trans. Visual. Comput. Graphics

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Abstract-Navigating a powered wheelchair and avoiding collisions is often a daunting task for new wheelchair users. It takes time and practice to gain the coordination needed to become a competent driver and this can be even more of a challenge for someone with a disability. We present a cost-effective virtual reality (VR) application that takes advantage of consumer level VR hardware. The system can be easily deployed in an assessment centre or for home use, and does not depend on a specialized high-end virtual environment such as a Powerwall or CAVE. This paper reviews previous work that has used virtual environments technology for training tasks, particularly wheelchair simulation. We then describe the implementation of our own system and the first validation study carried out using thirty three able bodied volunteers. The study results indicate that at a significance level of 5% then there is an improvement in driving skills from the use of our VR system. We thus have the potential to develop the competency of a wheelchair user whilst avoiding the risks inherent to training in the real world. However, the occurrence of cybersickness is a particular problem in this application that will need to be addressed.

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Nigel W. John

The Role of Haptics in Medical Training Simulators: A Survey of the State of the Art

A review of virtual environments for training in ball sports

Three-dimensional freehand ultrasound: Image reconstruction and volume analysis

Augmented Reality for Anatomical Education

The Implementation and Validation of a Virtual Environment for Training Powered Wheelchair Manoeuvres

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