A Low-Cost Physiological Monitoring Interface for Intensive Care Unit DOI Creative Commons
Ke-Feng Lin,

Shih-Sung Lin,

Ping-Nan Chen

и другие.

Research Square (Research Square), Год журнала: 2022, Номер unknown

Опубликована: Июнь 10, 2022

Abstract Background: During the COVID-19 pandemic, which emerged in 2020, many patients were treated isolation wards because of high infectivity and long incubation period COVID-19. Therefore, monitoring systems have become critical to patient care safeguard medical professional safety. Objective: The user interface is very important surveillance system; therefore, we use web technology develop a system that can create an based on needs. When scene needs be changed, location changed at any time, effectively reducing costs time required, so achieve timely appropriate goals treatment. Methods: ZigBee was employed for intensive units (ICUs). Unlike conventional GUIs, proposed GUI enables various aspects patient, modified according A simulated ICU environment designed test effectiveness system. nodes set up positions consistent with actual clinical environments measure required switch between scenes or targets GUI. Results: low-cost construct ZigBee-simulated graphical interfaces demand this study. overcome limitations design methods interfaces. Conclusion: This used simultaneously monitor basic physiological data numerous patients, enabling nursing professionals instantly determine status provide treatments. applied remote after official adoption.

Язык: Английский

Low-Cost Systematic Methodology for Rapidly Constructing a Physiological Monitoring Interface in ICU DOI Creative Commons
Ke-Feng Lin,

Shih-Sung Lin,

Ping-Nan Chen

и другие.

Inventions, Год журнала: 2023, Номер 8(2), С. 50 - 50

Опубликована: Фев. 22, 2023

During the COVID-19 pandemic, which emerged in 2020, many patients were treated isolation wards because of high infectivity and long incubation period COVID-19. Therefore, monitoring systems have become critical to patient care safeguard medical professional safety. The user interface is very important surveillance system; therefore, we used web technology develop a system that can create an based on needs. When scene needs be changed, location changed at any time, effectively reducing costs time required, so achieve timely appropriate goals treatment. ZigBee was employed for intensive units (ICUs). Unlike conventional GUIs, proposed GUI enables various aspects patient, modified according A simulated ICU environment designed test effectiveness system. nodes set up positions consistent with actual clinical environments measure required switch between scenes or targets GUI. novel construct ZigBee-simulated graphical interfaces demand this study. locations time. deploy developed study 4 min average, much shorter than methods (131 min). overcome limitations design interfaces. This simultaneously monitor basic physiological data numerous patients, enabling nursing professionals instantly determine status provide treatments. applied remote after official adoption.

Язык: Английский

Процитировано

0

Mobile sensing based indoor thermal field reconstruction: Test in a virtual environment DOI Creative Commons
Qi Zhou, Zhe Wang

E3S Web of Conferences, Год журнала: 2023, Номер 396, С. 01074 - 01074

Опубликована: Янв. 1, 2023

Environmental monitoring is a prerequisite to evaluate, control, and optimize indoor environmental quality. Compared stationary sensing that deploys sensors at fixed locations, mobile using an automated moving robot can actively take measurements locations of interests, which provides more flexible efficient way achieve high-granularity agile monitoring. Studies have been conducted design implement algorithms, however, deploy on hardware test the algorithm in real world usually expensive challenging. In this study, we introduced virtual testbed, AlphaMobileSensing be used test, benchmark algorithms easily efficiently. Using spatio-temporal (ST) interpolation for its robustness thermal field reconstruction. Two factors, path, initial position, were considered, corresponding reconstruction results compared. The show ST extract similar global trend dynamic regardless different paths predictions local variations are sensitive these two factors.

Язык: Английский

Процитировано

0

A Low-Cost Physiological Monitoring Interface for Intensive Care Unit DOI Creative Commons
Ke-Feng Lin,

Shih-Sung Lin,

Ping-Nan Chen

и другие.

Research Square (Research Square), Год журнала: 2022, Номер unknown

Опубликована: Июнь 10, 2022

Abstract Background: During the COVID-19 pandemic, which emerged in 2020, many patients were treated isolation wards because of high infectivity and long incubation period COVID-19. Therefore, monitoring systems have become critical to patient care safeguard medical professional safety. Objective: The user interface is very important surveillance system; therefore, we use web technology develop a system that can create an based on needs. When scene needs be changed, location changed at any time, effectively reducing costs time required, so achieve timely appropriate goals treatment. Methods: ZigBee was employed for intensive units (ICUs). Unlike conventional GUIs, proposed GUI enables various aspects patient, modified according A simulated ICU environment designed test effectiveness system. nodes set up positions consistent with actual clinical environments measure required switch between scenes or targets GUI. Results: low-cost construct ZigBee-simulated graphical interfaces demand this study. overcome limitations design methods interfaces. Conclusion: This used simultaneously monitor basic physiological data numerous patients, enabling nursing professionals instantly determine status provide treatments. applied remote after official adoption.

Язык: Английский

Процитировано

0