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체표면 데이터 분석을 위한 3D 인체 스캔 자세 선정에 관한 연구 -근육 근막 경선을 중심으로-
김민선(Minsun Kim),천종숙(Jongsuk Chun),지정우(Jungwoo Jee) 대한인간공학회 2018 대한인간공학회 학술대회논문집 Vol.2018 No.11
Objective: The purpose of this study was to reassess the upright core strengthening scan posture by the body surface area analysis method based on the myofascial meridian. Method: The 3D human body scan shape data was collected in four core strengthening postures((a)upright core strengthening posture, (b)plank posture, (c)hip bridge posture, (d)thigh rock-back posture). 3D body scan surfaces of twenty-five muscles and ligaments which were selected based on myofascial meridians of longitude and of latitude were analyzed. The 3D human body scan surface data was divided into eight blocks according to the myofascial meridian of longitude. The myofascial meridian block was identified for each posture. The surface area change rate of upright core strengthening posture was compared with the surface area change rate of plank posture, hip bridge posture and thigh rock-back posture by each myofascial meridian block. Results: The body surface area of all eight myofascial meridian blocks was able to be measured in upright core strengthening posture. However, it was partially impossible to measure in plank posture, hip bridge posture and thigh rock-back posture. Conclusion: Upright core strengthening posture can minimize missing data in 3D human body scan and represent the core strengthening scan posture from the viewpoint of body surface area analysis method based on myofascial meridian. Application: In the subsequent study, a core stabilization function compression wear pattern using the body surface data collected through the upright core strengthening scan posture will be developed.