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http://dx.doi.org/10.15207/JKCS.2021.12.1.127

Design and Error Verification of Intravenous Injection Detection System that Combines Load Cell and Gyro Sensor  

Kim, Seon-Chil (Department of Biomedical Engineering, Keimyung University)
Publication Information
Journal of the Korea Convergence Society / v.12, no.1, 2021 , pp. 127-132 More about this Journal
Abstract
The intravenous injection monitoring system used by medical institutions was developed to remotely provide patients with the amount of intravenous injected and the termination point of the injection. In order to measure the amount of intravenous injection input, the weight or flow rate of the level going out from the inside to outside of the intravenous injection can be observed with a measuring sensor. The criteria for devices that apply herein are accuracy and vigilance. In addition, it is compact and should be easy to use when installing intravenous injection on patients. In medical institutions, the accuracy of the measured values must be high, and economically inexpensive devices are required. In this study, low-cost small-weight-centered load cell sensors were applied, and algorithms were applied to reduce the artefact by external movement by converging with gyro sensors for accuracy of measurements. As a result, it was possible to reduce the error of measurement, thereby improving the accuracy of the intravenous injection monitoring measurement value.
Keywords
Intravenous Injection; Load Cell; Gyro Sensor; Monitoring; Nursing;
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Times Cited By KSCI : 3  (Citation Analysis)
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1 J. N. Kim & K. H. Lee. (2012). Automatic Flow Control and Network Monitoring of IV Injection, Korean Society of Manufacturing Technology Engineers, 21(12), 161-166. DOI : 10.7735/ksmte.2012.21.1.161   DOI
2 H. S. Lee & J. C. Oh. (2016). Studies on Effective Fluid Monitoring Terminal design with the Use oflocation-based service. Journal of the KIECS, 11(4), 421-426. DOI : 10.13067/JKIECS.2016.11.4.421   DOI
3 J. H. Kim, S. J. Kim, E. T. Park, S. Y. Jeong & E. H. Lee. (2017), Policy Issues and New Direction for Conprehensive Nursing Service in the National Health Insurance. Journal of Korean Acad Nurs Adm, 23(3), 312-322. DOI : 10.11111/jkana.2017.23.3.312   DOI
4 S. J. You. (2013). Comparisons of the Nursing Workforce with Japan, and the U.S.. The Journal of Digital Policy & Managemen, 11(6), 275-287. DOI : 10.14400/JDPM.2013.11.6.275   DOI
5 T. J. Kim & J. O. Yu. (2018). Comparative Study of Clinical Nurses' Role Conflict, Emotional Labor and Nursing Performance between Comprehensive Nursing Care Service Wards and General Wards. Journal of Muscle Jt Health, 25(1), 12-20. DOI : 10.5953/JMJH.2018.25.1.12   DOI
6 M. K. Lee & D. Y. Jung. (2015). A Study of Nursing Tasks, Nurses' Job Stress and Job Satisfaction in Hospitals with No Guardianns. Journal of Korean Acad Nurs Adm, 21(3), 287-296. DOI : 10.11111/jkana.2015.21.3.287   DOI
7 D. L. Kasper, E. Braunwald, A. S. Fauci & T. R. Harrison. (2005). Harrison's principles of Internal Medicine. 16thed. New York: McGraw-Hill; 2005.
8 R. Hagihghi, A. Razmjou, Y. Orooji, M. E. Warkiani & M. Asadnia. (2019). A miniaturized piezoresistive flow sensor for real‐time monitoring of intravenous infusion. Journal of Biomed Mater Research, 108(2), 568-576. DOI : 10.1002/jbm.b.34412   DOI
9 S. J. Lee, H. J. Sim, A. R. Lee & T. R. Lee. (2013). The Design of Maternity Monitoring System Using USN in Maternity Hospital. The Journal of Digital Policy & Management, 11(5), 347-354. DOI : 10.14400/JDPM.2013.11.5.347   DOI
10 S. Moon & J. A. Lee. (2017). Correlates of Patient Safety Performance among Nurses from Hospitals with Less than 200 Beds. Korean Journal of Adult Nursing, 29(4), 393-405. DOI : 10.7475/kjan.2017.29.4.393   DOI
11 S. J. Kim. (2020). The Implementation of a Patient Data Management System with Real-time Vital Signs Monitoring. Korea Information Processing Society, 27(1), 314-317. DOI : 10.3745/PKIPS.y2020.m05a.314
12 C. M. Han, C. S. Yim & S. R. Lee. (2019). Forklift Weight Measurement System using Anchor Bolt Type Strain Gauge Sensor. Journal of Advanced Navigation Technology, 23(2), 200-206. DOI : 10.12673/jant.2019.23.2.200   DOI
13 C. Y. Lee & D. I. Gang. (2000). Finite Element Analysis of Nonlinear Behavior of a Column Type Sensing Element for Load Cell According to Design Parameters. The Korean Society of Mechanical Engineers, 24(6), 1540-1546. DOI : 10.22634/KSME-A.2000.24.6.1540   DOI
14 H. J. Seo, H. S. Jung, G. J. Ryu & T. W. Ch. (2012). High Accurate Creep Compensation of the Loadcell using the Strain Gaug. Journal of IKEEE, 16(1), 34-44. DOI : 10.7471/ikeee.2012.16.1.034   DOI
15 J. C. Stull, A. Erenberg & R. D. Leff. (1988). Flow rate variability from electronic infusion devices. Crit Care Med, 16, 888-91. DOI : 10.1097/00003246-198809000-00014   DOI