A ‘mixed reality’ simulator concept for future Medical Emergency Response Team training

Robert Stone; Robert Guest; Peter Mahoney; Di Lamb; Chris Gibson

doi:10.1136/jramc-2016-000726

A ‘mixed reality’ simulator concept for future Medical Emergency Response Team training

Robert Stone, Robert Guest, Peter Mahoney, Di Lamb, Chris Gibson

Electronic, Electrical and Systems Engineering

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

717 Downloads (Pure)

Abstract

The UK Defence Medical Service’s Pre-Hospital Emergency Care (PHEC) capability includes rapid-deployment Medical Emergency Response Teams (MERTs) comprising tri-service trauma consultants, paramedics and specialised nurses, all of whom are qualified to administer emergency care under extreme conditions to improve the survival prospects of combat casualties. The pre-deployment training of MERT personnel is designed to foster individual knowledge, skills and abilities in PHEC and in small team performance and cohesion in ‘mission-specific’ contexts. Until now, the provision of airborne pre-deployment MERT training had been dependent on either the availability of an operational aircraft (eg, the CH-47 Chinook helicopter) or access to one of only two ground-based facsimiles of the Chinook’s rear cargo/passenger cabin. Although MERT training has high priority, there will always be competition with other military taskings for access to helicopter assets (and for other platforms in other branches of the Armed Forces). This paper describes the development of
an inexpensive, reconfigurable and transportable MERT training concept based on ‘mixed reality’ technologies—in effect the ‘blending’ of real-world objects of training relevance with virtual reality reconstructions of operational contexts.

Original language	English
Pages (from-to)	280-287
Number of pages	8
Journal	Journal of the Royal Army Medical Corps
Volume	163
Issue number	4
Early online date	6 Jan 2017
DOIs	https://doi.org/10.1136/jramc-2016-000726
Publication status	Published - 2 Aug 2017

Keywords

Mixed Reality
Defence Medicine
MERT
Fidelity
Virtual Reality
Technology-Based Training
Human Factors
Simulation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1136/jramc-2016-000726Licence: None: All rights reserved

Stone_et_al_Mixed_reality’_simulator_Journal_Royal_Army_Medical_Corps_2017Accepted author manuscript, 1.86 MBLicence: None: All rights reserved

Cite this

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title = "A {\textquoteleft}mixed reality{\textquoteright} simulator concept for future Medical Emergency Response Team training",

abstract = "The UK Defence Medical Service{\textquoteright}s Pre-Hospital Emergency Care (PHEC) capability includes rapid-deployment Medical Emergency Response Teams (MERTs) comprising tri-service trauma consultants, paramedics and specialised nurses, all of whom are qualified to administer emergency care under extreme conditions to improve the survival prospects of combat casualties. The pre-deployment training of MERT personnel is designed to foster individual knowledge, skills and abilities in PHEC and in small team performance and cohesion in {\textquoteleft}mission-specific{\textquoteright} contexts. Until now, the provision of airborne pre-deployment MERT training had been dependent on either the availability of an operational aircraft (eg, the CH-47 Chinook helicopter) or access to one of only two ground-based facsimiles of the Chinook{\textquoteright}s rear cargo/passenger cabin. Although MERT training has high priority, there will always be competition with other military taskings for access to helicopter assets (and for other platforms in other branches of the Armed Forces). This paper describes the development ofan inexpensive, reconfigurable and transportable MERT training concept based on {\textquoteleft}mixed reality{\textquoteright} technologies—in effect the {\textquoteleft}blending{\textquoteright} of real-world objects of training relevance with virtual reality reconstructions of operational contexts.",

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author = "Robert Stone and Robert Guest and Peter Mahoney and Di Lamb and Chris Gibson",

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AB - The UK Defence Medical Service’s Pre-Hospital Emergency Care (PHEC) capability includes rapid-deployment Medical Emergency Response Teams (MERTs) comprising tri-service trauma consultants, paramedics and specialised nurses, all of whom are qualified to administer emergency care under extreme conditions to improve the survival prospects of combat casualties. The pre-deployment training of MERT personnel is designed to foster individual knowledge, skills and abilities in PHEC and in small team performance and cohesion in ‘mission-specific’ contexts. Until now, the provision of airborne pre-deployment MERT training had been dependent on either the availability of an operational aircraft (eg, the CH-47 Chinook helicopter) or access to one of only two ground-based facsimiles of the Chinook’s rear cargo/passenger cabin. Although MERT training has high priority, there will always be competition with other military taskings for access to helicopter assets (and for other platforms in other branches of the Armed Forces). This paper describes the development ofan inexpensive, reconfigurable and transportable MERT training concept based on ‘mixed reality’ technologies—in effect the ‘blending’ of real-world objects of training relevance with virtual reality reconstructions of operational contexts.

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KW - MERT

KW - Fidelity

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KW - Human Factors

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DO - 10.1136/jramc-2016-000726

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ER -

A ‘mixed reality’ simulator concept for future Medical Emergency Response Team training

Abstract

Keywords

UN SDGs

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