RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

A smart insole system consisting of pressure sensors, wireless communication modules, and pressure monitoring software has been developed to measure plantar pressure distribution that appears in sewing process. This system calculates the cycle time of each operation by analyzing the real-time plantar pressure data. The operation cycle time was divided into the time done by machine and by manual and calculated by adding the two types of time. By analyzing the cycle time, it is possible to estimate the type of operation a worker is performing. The ability to calculate accurate cycle time and to manage a large volume of data is the advantage of this system. Establishing an accurate cycle time of all operations would be of great help in improving the production process, capacity planning, line efficiency, and labor cost calculation. The system is expected to be a good alternative to the conventional manual measurement process. It will also be able to meet the high demand from garment manufacturers for automated monitoring systems.

참고문헌 (Reference)

1 Hartanti, L. P. S., "Work measurement approach to determine standard time in assembly line" 2 (2): 192-195, 2016

2 Maekawa, T., "Toward practical factory activity recognition: unsupervised under-standing of repetitive assembly work in a factory" 1088-1099, 2016

3 Harrell, C., "Simulation using ProModel" McGraw-Hill/Higher Education 2004

4 Dinh, M. H., "Simulated annealing for the assembly line balancing problem in the garment industry" 2019

5 Chan, J., "Preventing musculoskeletal disorders in garment workers : preliminary results regarding ergonomics risk factors and proposed interventions among sewing machine operators in the San Francisco Bay Area" 17 (17): 247-253, 2002

6 Nirmal, K., "Noise modeling and analysis of an IMU-based attitude sensor: improvement of performance by fltering and sensor fusion" 2016

7 Golestan, S., "Moving average flter based phase-locked loops : Performance analysis and design guidelines" 29 (29): 2750-2763, 2013

8 Kitronyx, "MP2512 smart insole development kit"

9 Ward, J. A., "Gesture spotting using wrist worn microphone and 3-axis accelerometer" 99-104, 2005

10 Rahman, H., "Efective way to estimate the standard Minute value(SMV)of a T-Shirt by work study" 10 (10): 196-203, 2014

1 Hartanti, L. P. S., "Work measurement approach to determine standard time in assembly line" 2 (2): 192-195, 2016

2 Maekawa, T., "Toward practical factory activity recognition: unsupervised under-standing of repetitive assembly work in a factory" 1088-1099, 2016

3 Harrell, C., "Simulation using ProModel" McGraw-Hill/Higher Education 2004

4 Dinh, M. H., "Simulated annealing for the assembly line balancing problem in the garment industry" 2019

6 Nirmal, K., "Noise modeling and analysis of an IMU-based attitude sensor: improvement of performance by fltering and sensor fusion" 2016

7 Golestan, S., "Moving average flter based phase-locked loops : Performance analysis and design guidelines" 29 (29): 2750-2763, 2013

8 Kitronyx, "MP2512 smart insole development kit"

9 Ward, J. A., "Gesture spotting using wrist worn microphone and 3-axis accelerometer" 99-104, 2005

10 Rahman, H., "Efective way to estimate the standard Minute value(SMV)of a T-Shirt by work study" 10 (10): 196-203, 2014

11 Briedis, U., "Development of a smart garment prototype with enuresis alarm using an embroidery-machine-based technique for the integration of electronic components" 104 : 369-374, 2017

12 Manupibul, U., "Design and development of SMART insole system for plantar pressure measurement in imbalance human body and heavy activities" 1-5, 2014

13 Namioka, Y., "Automatic measurement of lead time of repetitive assembly work in a factory using a wearable sensor" 25 : 901-911, 2017

14 Nann, K., "Assembly line balancing to improve productivity using work-sharing method in gar-ment factories" 3 (3): 1582-1587, 2019

15 Chisosa, D. F., "An exploration of how work study techniques can optimize production in Zimba-bwe’s clothing industry" 10 (10): 1-11, 2018

16 Koskimaki, H., "Activity recognition using a wrist-worn inertial measurement unit: A case study for industrial assembly lines" 401-405, 2009

연월일	이력구분	이력상세
2023	평가예정	해외DB학술지평가 신청대상 (해외등재 학술지 평가)
2020-01-01	평가	등재학술지 유지 (해외등재 학술지 평가)
2017-09-01	평가	SCOPUS 등재 (기타)

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상세검색

해외전자자료

Development of smart insole for cycle time measurement in sewing process

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