Parameters Influencing Human-Machine Interaction in Hospitals
Handling life-critical systems complexity requires to be equipped with appropriate technology and the right human agents’ functions such as knowledge, experience, and competence in problem’s prevention and solving. Human agents are involved in the management and control of human-machine system’s performance. Documenting human agent’s situation awareness is crucial to support human-machine designers’ decision-making. Knowledge about risks, critical parameters and factors that can impact and threaten automation system’s performance should be collected using preventive and retrospective approaches. This paper aims to document operators’ situation awareness through the analysis of automated organizations’ feedback. The analysis of automated hospital pharmacies feedback helps identify and control critical parameters influencing human machine interaction in order to enhance system’s performance and security. Our human machine system evaluation approach has been deployed in Macon hospital center’s pharmacy which is equipped with automated drug dispensing systems since 2015. Automation’s specifications are related to technical aspects, human-machine interaction, and human aspects. The evaluation of drug delivery automation performance in Macon hospital center has shown that the performance of the automated activity depends on the performance of the automated solution chosen, and also on the control of systemic factors. In fact, 80.95% of automation specification related to the chosen Sinteco’s automated solution is met. The performance of the chosen automated solution is involved in 28.38% of automation specifications performance in Macon hospital center. The remaining systemic parameters involved in automation specifications performance need to be controlled.
 J.C Knight, Safety critical systems: challenges and directions, Proceedings of the 24th International Conference on Software Engineering. ICSE 2002, (2011)
 P. Millot, Cooperative organization for enhancing situation awareness, p.279, Risk management in Life-Critical Systems, ISTE Ltd and John Wiley & Sons, Inc (2014).
 H. Bouami, P. Millot, Healthcare Delivery System Security: the orchestration of automated and organizational solutions, IFAC PapersOnLine 52-19 (2019) 127–132
 H. Bouami, P. Millot, L’automatisation du circuit du médicament : une conception systémique et centrée sur l’Humain, CIGI Qualita 2019
 H. Bouami, P. Millot, A systemic approach for a well-documented situation awareness in human-centered automation systems, 13th International Conference on Human System Interaction HSI 2020
 H. Bouami, P. Millot, (2020) Risk Management Approach for a Secure and Performant Integration of Automated Drug Dispensing Systems in Hospitals, 22nd International Conference on Healthcare Robotics, Challenges and Opportunities on September, 24-25, 2020 at San Francisco, USA
 G. Boy, Dealing with the Unexpected, p3, Risk Management in Life-Critical systems, edited by P. Millot, ISTE Ltd and John Wiley & Sons, Inc 2014
 G. Boy, From automation to tangible interactive objects, Human-Centered Design Institute, Florida Institute of Technology, 150 West University Boulevard, Melbourne, FL 32901, USA, Elsevier, 2014
 Boy, G. A., Orchestrating human-centered design. 978-1-4471-4338-3. UK: Springer (2013).
 TRB Special Report 273 - Shipboard Automatic Identification System Displays: Meeting the Needs of Mariners assesses the state of the art in Automatic Identification System (AIS) display technologies, evaluates current system designs and their capabilities, and reviews the relevant human factors aspects associated with operating these systems, 2003
 M.R. Endsley: Toward a Theory of Situation Awareness in Dynamic Systems. Human Factors Journal 37(1), 32-64. March 1995