DESIGN AND IMPLEMENTATION OF THE HUMAN MACHINE INTERFACES BASED ON DWIN DMG80480K050_WTR AND LINEAR PERISTALTIC PUMPS FOR INFUSION PUMPS
Human Machine Interface (HMI) plays a crucial role in modern technological systems, enabling effective communication and interaction between humans and machines. In various industries, including manufacturing, healthcare, transportation, and automation, HMIs have revolutionized the way users inte...
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id-itb.:736932023-06-22T22:34:50ZDESIGN AND IMPLEMENTATION OF THE HUMAN MACHINE INTERFACES BASED ON DWIN DMG80480K050_WTR AND LINEAR PERISTALTIC PUMPS FOR INFUSION PUMPS Prastyo Yoshuhiro P, Augusto Indonesia Final Project DMG80480K050_WTR, Human Machine Interfaces, Peristaltic Pump, Infusion Pump. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/73693 Human Machine Interface (HMI) plays a crucial role in modern technological systems, enabling effective communication and interaction between humans and machines. In various industries, including manufacturing, healthcare, transportation, and automation, HMIs have revolutionized the way users interact with complex systems. This papers provides a detailed explanation of the implementation of DMG80480K050_WTR as a Human Machine Interface (HMI) display and a linear peristaltic pump in an infusion pump system. The main objective of the HMI display is to facilitate user interaction by allowing users to input parameters, display parameters, input Wi-Fi, and assign bed numbers. Meanwhile, the linear peristaltic pump is used as a mechanical pumping mechanism that utilizes a rotor, ring, and finger to generate a sinusoidal movement that squeezes the tubing and displaces the fluid. DMG80480K050_WTR is an HMI display developed with the consideration of user needs in infusion pump applications. Using this HMI display, users can easily input the required parameters for the infusion process, such as the flow rate, desired infusion volume, and infusion time. Additionally, the HMI display is capable of presenting these parameters clearly and legibly to the users. On the other hand, the linear peristaltic pump plays a crucial role in this infusion pump system. By employing the motion of the shaft, ring, and finger driven by a stepper motor, the pump is able to accurately squeeze the infusion tubing and displace the fluid. This ensures precise and consistent fluid delivery according to the parameters set by the user. The reliability of the linear peristaltic pump also ensures a low error rate, with an error rate below 10%, allowing users to have full confidence in its performance. The integration of the DMG80480K050_WTR HMI display and the linear peristaltic pump provides significant advantages for the infusion pump system. Users can easily control and monitor the infusion process through the intuitive and responsive HMI display. Additionally, with the accurate and reliable linear iv peristaltic pump, fluid delivery can be performed with high precision, ensuring patients receive the correct dosage according to their medical needs. Overall, the implementation of DMG80480K050_WTR as an HMI display and the use of a linear peristaltic pump in the infusion pump system successfully meet text |
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Indonesia |
| description |
Human Machine Interface (HMI) plays a crucial role in modern technological
systems, enabling effective communication and interaction between humans and
machines. In various industries, including manufacturing, healthcare,
transportation, and automation, HMIs have revolutionized the way users interact
with complex systems. This papers provides a detailed explanation of the
implementation of DMG80480K050_WTR as a Human Machine Interface (HMI)
display and a linear peristaltic pump in an infusion pump system. The main
objective of the HMI display is to facilitate user interaction by allowing users to
input parameters, display parameters, input Wi-Fi, and assign bed numbers.
Meanwhile, the linear peristaltic pump is used as a mechanical pumping
mechanism that utilizes a rotor, ring, and finger to generate a sinusoidal movement
that squeezes the tubing and displaces the fluid.
DMG80480K050_WTR is an HMI display developed with the consideration of user
needs in infusion pump applications. Using this HMI display, users can easily input
the required parameters for the infusion process, such as the flow rate, desired
infusion volume, and infusion time. Additionally, the HMI display is capable of
presenting these parameters clearly and legibly to the users.
On the other hand, the linear peristaltic pump plays a crucial role in this infusion
pump system. By employing the motion of the shaft, ring, and finger driven by a
stepper motor, the pump is able to accurately squeeze the infusion tubing and
displace the fluid. This ensures precise and consistent fluid delivery according to
the parameters set by the user. The reliability of the linear peristaltic pump also
ensures a low error rate, with an error rate below 10%, allowing users to have full
confidence in its performance.
The integration of the DMG80480K050_WTR HMI display and the linear
peristaltic pump provides significant advantages for the infusion pump system.
Users can easily control and monitor the infusion process through the intuitive and
responsive HMI display. Additionally, with the accurate and reliable linear
iv
peristaltic pump, fluid delivery can be performed with high precision, ensuring
patients receive the correct dosage according to their medical needs.
Overall, the implementation of DMG80480K050_WTR as an HMI display and the
use of a linear peristaltic pump in the infusion pump system successfully meet |
| format |
Final Project |
| author |
Prastyo Yoshuhiro P, Augusto |
| spellingShingle |
Prastyo Yoshuhiro P, Augusto DESIGN AND IMPLEMENTATION OF THE HUMAN MACHINE INTERFACES BASED ON DWIN DMG80480K050_WTR AND LINEAR PERISTALTIC PUMPS FOR INFUSION PUMPS |
| author_facet |
Prastyo Yoshuhiro P, Augusto |
| author_sort |
Prastyo Yoshuhiro P, Augusto |
| title |
DESIGN AND IMPLEMENTATION OF THE HUMAN MACHINE INTERFACES BASED ON DWIN DMG80480K050_WTR AND LINEAR PERISTALTIC PUMPS FOR INFUSION PUMPS |
| title_short |
DESIGN AND IMPLEMENTATION OF THE HUMAN MACHINE INTERFACES BASED ON DWIN DMG80480K050_WTR AND LINEAR PERISTALTIC PUMPS FOR INFUSION PUMPS |
| title_full |
DESIGN AND IMPLEMENTATION OF THE HUMAN MACHINE INTERFACES BASED ON DWIN DMG80480K050_WTR AND LINEAR PERISTALTIC PUMPS FOR INFUSION PUMPS |
| title_fullStr |
DESIGN AND IMPLEMENTATION OF THE HUMAN MACHINE INTERFACES BASED ON DWIN DMG80480K050_WTR AND LINEAR PERISTALTIC PUMPS FOR INFUSION PUMPS |
| title_full_unstemmed |
DESIGN AND IMPLEMENTATION OF THE HUMAN MACHINE INTERFACES BASED ON DWIN DMG80480K050_WTR AND LINEAR PERISTALTIC PUMPS FOR INFUSION PUMPS |
| title_sort |
design and implementation of the human machine interfaces based on dwin dmg80480k050_wtr and linear peristaltic pumps for infusion pumps |
| url |
https://digilib.itb.ac.id/gdl/view/73693 |
| _version_ |
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