Efficient management of medical equipment and supplies in healthcare facilities is crucial for streamlined operations and patient care. This article explores the integration of smart carts with assisted motion capabilities, focusing on state-of-the-art technologies and regulatory requirements. It discusses advancements in smart technologies, such as remote connectivity, and proposes a framework for the development of smart carts that emphasizes efficiency and safety. A set of research objectives are outlined and investigated, namely power consumption, ergonomic considerations, and human-machine interface integration. Theoretical concepts and experimental validation aimed at optimizing cart performance and user experience, are applied to an illustrative case study. The preliminary testing reveals promising results, with the potential for further reduction in energy consumption and user interface design improvement. Overall, this work aims to provide insight into the potential of assisted motion technology to enhance healthcare logistics and patient care delivery.

Design Solutions of Healthcare Carts for Optimized Assisted Motion

Consolati D.
;
Marmaglio P.;Formicola R.;Faglia R.;Tiboni M.;Amici C.
2024-01-01

Abstract

Efficient management of medical equipment and supplies in healthcare facilities is crucial for streamlined operations and patient care. This article explores the integration of smart carts with assisted motion capabilities, focusing on state-of-the-art technologies and regulatory requirements. It discusses advancements in smart technologies, such as remote connectivity, and proposes a framework for the development of smart carts that emphasizes efficiency and safety. A set of research objectives are outlined and investigated, namely power consumption, ergonomic considerations, and human-machine interface integration. Theoretical concepts and experimental validation aimed at optimizing cart performance and user experience, are applied to an illustrative case study. The preliminary testing reveals promising results, with the potential for further reduction in energy consumption and user interface design improvement. Overall, this work aims to provide insight into the potential of assisted motion technology to enhance healthcare logistics and patient care delivery.
2024
9783031645686
9783031645693
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11379/612927
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