ABSTRACT
Electronic Whiteboards are introduced in critical hospital environments, such as emergency rooms, to manage tasks developed by the multidisciplinary health team. However, the users interaction with such equipment, generally touch sensitive or by keyboard and mouse, has raised discussions about the possibility of disease transmission by hands contact. The main objective of this research was the implementation and user evaluation of a gesture and voice-based natural interaction module to the electronic whiteboard system, named SHAVI, developed for the emergency department of the University Hospital of Maringá. The use evaluation was performed with ten professionals from different health areas who work in the hospital. The evaluation method used was the observation in a controlled environment. The evaluation results has revealed the need to improve the prototype and suggest that users consider this type of interaction useful, therefore, they are interested in learning and using them.
- Dominik Aronsky, Ian Jones, Kevin Lanaghan, and Corey M. Slovis. 2008. Supporting Patient Care in the Emergency Department with a Computerized Whiteboard System. Journal of the American Medical Informatics Association 15, 2 (mar 2008), 184--194.Google ScholarCross Ref
- Angelos Barmpoutis. 2013. Create Avatars using Kinect in Real-time. Research.Dwi.Ufl.Edu (2013). http://research.dwi.ufl.edu/ufdw/j4k/KinectGoogle Scholar
- Ann M. Bisantz, Priyadarshini R. Pennathur, Theresa K. Guarrera, Rollin J. Fairbanks, Shawna J. Perry, Frank Zwemer, and Robert L. Wears. 2010. Emergency Department Status Boards: A Case Study in Information Systems Transition. Journal of Cognitive Engineering and Decision Making 4, 1 (2010), 39--68.Google ScholarCross Ref
- Bojan Blazica. 2014. The inherent context awareness of natural user interfaces: a case study on multitouch displays. Informatica 38, 4 (2014), 385.Google Scholar
- Elisa Boger. 2003. Electronic tracking board reduces ED patient length of stay at Indiana hospital. Journal of Emergency Nursing 29, 1 (2003), 39--43.Google ScholarCross Ref
- Simon Brooks, Rebecca Bhatia, Karen Tudge, and Ian Wilson. 2017. P-115 Implementing an electronic whiteboard system on the in patient unit. BMJ Supportive & Palliative Care 7, Suppl 1 (mar 2017), A42.3--A43.Google Scholar
- Alana Da Gama, Pascal Fallavollita, Veronica Teichrieb, and Nassir Navab. 2015. Motor Rehabilitation Using Kinect: A Systematic Review. Games for Health Journal 4, 2 (2015), 123--135.Google ScholarCross Ref
- João Luiz de Almeida, Max Naegeler Roecker, Heloise Manica Paris Teixeira, Renato Balancieri, and Maria Madalena Dias. 2014. Um Sistema de Lousa Eletrônica para Unidade de Urgência e Emergência Médica. In CBIS - Congresso Brasileiro de Informática em Saúde. Santos.Google Scholar
- Lars C. Ebert, Gary Hatch, Garyfalia Ampanozi, Michael J. Thali, and Steffen Ross. 2012. You Can't Touch This. Surgical Innovation 19, 3 (2012), 301--307. PMID: 22064490Google ScholarCross Ref
- Anders K. Ericsson. 2006. Protocol Analysis and Expert Thought: Concurrent Verbalizations of Thinking during Experts Performance on Representative Tasks. The Cambridge Handbook of Expertise and Expert Performance (2006), 39--68.Google Scholar
- Luigi Gallo, Alessio Pierluigi Placitelli, and Mario Ciampi. 2011. Controller-free exploration of medical image data: Experiencing the Kinect. In 2011 24th International Symposium on Computer-Based Medical Systems (CBMS). 1--6. Google ScholarDigital Library
- Viviane Hasselmann, Peter Oesch, Luis Fernandez-Luque, and Stefan Bachmann. 2015. Are exergames promoting mobility an attractive alternative to conventional self-regulated exercises for elderly people in a rehabilitation setting? Study protocol of a randomized controlled trial. BMC geriatrics 15, June 2016 (2015), {1} T. Hewett, R. Baecker, S. Card, T. Carey, J. G.Google Scholar
- Morten Hertzum and Jesper Simonsen. 2013. Work-practice changes associated with an electronic emergency department whiteboard. Health Informatics Journal 19, 1 (2013), 46--60. PMID: 23486825Google ScholarCross Ref
- Morten Hertzum and Jesper Simonsen. 2016. Effects of electronic emergency-department whiteboards on clinicians' time distribution and mental workload. Health Informatics Journal 22, 1 (2016), 3--20.Google ScholarCross Ref
- Mithun George Jacob and Juan Pablo Wachs. 2014. Context-based hand gesture recognition for the operating room. Pattern Recognition Letters 36 (2014), 196--203. Google ScholarDigital Library
- JSAPI. 2017. Java Speech API. (2017). https://github.com/lkuza2/java-speech-apiGoogle Scholar
- Cem Keskin, Koray Balci, Oya Aran, Bulent Sankur, and Lale Akarun. 2007. A Multimodal 3D Healthcare Communication System. In 2007 3DTV Conference. 1--4.Google Scholar
- Daniel Thom Lopes, Renato Balancieri, Heloise Manica, Paris Teixeira, and Maria Madalena Dias. 2014. Electronic Whiteboard in Hospitals: a systematic review. 6, 4 (2014), 166--171.Google Scholar
- Rajshri Mainthia, Timothy Lockney, Alexandr Zotov, Daniel J. France, Marc Bennett, Paul J. St. Jacques, William Furman, Stephanie Randa, Nancye Feistritzer, Roland Eavey, Susie Leming-Lee, and Shilo Anders. 2012. Novel use of electronic whiteboard in the operating room increases surgical team compliance with pre-incision safety practices. Surgery 151, 5 (2012), 660--666.Google ScholarCross Ref
- L.J. Brewster Mallalieu, A. Sharma, A. Jamshidi, Y. Cao, A. Kapur, J. Pinsky, J. Mogavero, and L. Potters. 2011. A Virtual Whiteboard for Improvement of Coordination of Physics Processes in a Multi-site Radiation Therapy Department. International Journal of Radiation Oncology*Biology*Physics 81, 2 (2011), S697. Proceedings of the American Society for Radiation Oncology 53rd Annual MeetingGoogle Scholar
- Microsoft. 2013a. Skeletal Tracking. (2013). https://msdn.microsoft.com/en-us/library/hh973074.aspxGoogle Scholar
- Microsoft. 2013b. Tracking Users with Kinect Skeletal Tracking. (2013). https://msdn.microsoft.com/en-us/library/jj131025.aspxGoogle Scholar
- Hossein Mousavi Hondori and Maryam Khademi. 2014. A Review on Technical and Clinical Impact of Microsoft Kinect on Physical Therapy and Rehabilitation. Journal of Medical Engineering 2014 (2014), {1} T. Hewett, R. Baecker, S. Card, T. Carey, J. G.Google Scholar
- Tara Mullaney, Björn Yttergren, and Erik Stolterman. 2013. Positional acts: using a Kinect™ sensor to reconfigure patient roles within radiotherapy treatment. Proceedings of the 8th International Conference on Tangible, Embedded and Embodied Interaction - TEI '14 (2013), {1} T. Hewett, R. Baecker, S. Card, T. Carey, J. G. Google ScholarDigital Library
- Jakob Nielsen and Thomas K. Landauer. 1993. A Mathematical Model of the Finding of Usability Problems. In Proceedings of the INTERACT '93 and CHI '93 Conference on Human Factors in Computing Systems (CHI '93). ACM, New York, NY, USA, 206--213. Google ScholarDigital Library
- Julien Pauchot, Laetitia Di Tommaso, Ahmed Lounis, Mourad Benassarou, Pierre Mathieu, Dominique Bernot, and Sébastien Aubry. 2015. Leap Motion Gesture Control With Carestream Software in the Operating Room to Control Imaging. Surgical Innovation 22, 6 (2015), 615--620. PMID: 26002115Google ScholarCross Ref
- Mauricio Pradella. 2011. Design de interação: aplicação de interfaces intangíveis em simulações para o aprendizado a distância. Dissertação de Mestrado. Universidade Anhembi Morumbi.Google Scholar
- Guillermo M. Rosa and María L. Elizondo. 2014. Use of a gesture user interface as a touchless image navigation system in dental surgery: Case series report. Imaging Science in Dentistry 44, 2 (2014), {1} T. Hewett, R. Baecker, S. Card, T. Carey, J. G.Google Scholar
- Daniel Sonntag, Christian Husodo Schulz, Christian Reuschling, and Luis Galarraga. 2012. RadSpeech, a mobile dialogue system for radiologists. Proceedings of the International Conference on Intelligent User Interfaces (IUI). International Conference on Intelligent User Interfaces (IUI), 17th, February 14-17, Lisboa, Portugal (2012), {1} T. Hewett, R. Baecker, S. Card, T. Carey, J. G. Google ScholarDigital Library
- World Health Organisation (WHO). 2009. WHO Guidelines on Hand Hygiene in Health Care: First Global Patient Safety Challenge Clean Care Is Safer Care. World Health 30, 1 (2009), 270.Google Scholar
Index Terms
- Gesture and Voice-Based Natural User Interface for Electronic Whiteboard System in a Medical Emergency Department
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