• Computational Structural Engineering
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• v.17 no.1
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• pp.50-64
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• 2004

유한요소 인체모델은 인체의 기계적 특성을 수치 모형화 한 것이며, 외부로부터 다양한 기계적 하중을 받는 상황에서 인체의 거동과 상해와 같은 여러 현상들을 해석적으로 규명하고자 할 때 주로 사용된다. 따라서 인체 모델은 인체를 구성하고 있는 골격, 인대, 근육, 살, 장기 등의 특성을 수치적으로 정확히 표현하여야 한다. 그러나 인체는 매우 복잡한 메커니즘 속에서 동작하고 있기 때문에, 해석적으로 인체의 모든 특성을 구현하는 것은 현실적으로는 거의 불가능하다. 이 때문에, 인체 모델은 인체모델을 사용하고자 하는 상황이나 목적에 적합하도록 적절히 단순화되어야 한다.(중략)

• The Journal of Korean Physical Therapy
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• v.9 no.1
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• pp.177-184
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• 1997

1. The human body is the unification related to the powerful fascial network, I think. 2. Myofascial not only prevent and support the human body structure curdling but also keep the physical balance by dispersing traumatization properly. 3. Myofascial restriction will be developed into muscle deficiency and cause pains without releasing the muscle tension and the spasm. 4. Myofascial restriction affect and change the physical posture by losing the muscle elasticity and flexibility and by losing muscle supporting ability from gravitation. 5. The partial myofascial restriction affect the muscle and the adjoining joint supporting gravitation and cause the unbalance of the entire body.

• The Journal of the Korea institute of electronic communication sciences
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• v.16 no.2
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• pp.385-394
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• 2021

In this paper, a new equation of electromagnetic wave transmission matrix was proposed to calculate the reflected power and transmitted power for the multi-layered planar lossy structure. The applied human leg was modeled as a four-layer planar structure of skin, fat, muscle and bone. The complex dielectric constant to consider the loss of each of these layers was calculated using the 4-pole cole-cole model parameter. When electromagnetic waves were incident on the skin surface, total reflected and transmitted power, and human body loss were calculated for a frequency band of 0.1 to 20.0 GHz. And for various muscle thicknesses, the power reflected only from the outermost bone and re-radiated from the skin was calculated. It was confirmed that at the muscle thickness of 3.0 mm and the frequency of 4.6 GHz the return loss was -6.13 dB, which was 3.42 dB lower than the average value.

• The Research Journal of the Costume Culture
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• v.26 no.6
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• pp.934-950
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• 2018

This study suggests a new perspective for designing men's tailored jackets by more carefully considering human muscle structure. For this study, we examined research regarding the construction of the tailored jacket that is based on costume history references, as well as research regarding human muscle structure that is based on human anatomy references and the analysis of recent fashion designs illustrating the human body image. Based on this research, we developed various tailored constructions that account for human muscle structure. These constructions are applied primarily to the backs of four tailored jackets, as the back of the jacket needs a mechanism to accommodate the wearer's movement. The following conclusions have been derived from the study: First, by developing the tailored garment structure that accounts for the muscle structure of the human body, we suggest a new design direction for tailored garments. Second, we propose a new type of tailored jacket structure for the back of the jacket that incorporates an artificial muscle structure to accommodate the wearer's activities. This new type of jacket indicates the potential for designs that use structure, particularly the structure of the human body. Finally, by using the embroidery technique, we changed the texture of the material into the shape of human muscle. Thus, we propose a design that uses three-dimensional volume to accounts for the shape of human body tissue.

• Journal of the Korean Society for Nondestructive Testing
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• v.34 no.5
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• pp.362-368
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• 2014

Fiber optic sensors (FOS) have advantages such as electromagnetic interference (EMI) immunity, corrosion resistance and multiplexing capability. For these reasons, they are widely used in various condition monitoring systems (CMS). This study investigated a muscular condition monitoring system using fiber optic sensors (FOS). Generally, sensors for monitoring the condition of the human body are based on electro-magnetic devices. However, such an electrical system has several weaknesses, including the potential for electro-magnetic interference and distortion. Fiber Bragg grating (FBG) sensors overcome these weaknesses, along with simplifying the devices and increasing user convenience. To measure the level of muscle contraction and relaxation, which indicates the musle condition, a belt-shaped FBG sensor module that makes it possible to monitor the movement of muscles in the radial and circumferential directions was fabricated in this study. In addition, a uniaxial tensile test was carried out in order to evaluate the applicability of this FBG sensor module. Based on the experimental results, a relationship was observed between the tensile stress and Bragg wavelength of the FBG sensors, which revealed the possibility of fabricating a muscular condition monitoring system based on FBG sensors.

• 건강소식
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• v.31 no.2 s.339
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• pp.6-13
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• 2007

우리 인간의 신체는 약 206개의 뼈로 구성되어 있다. 그 중 양 발은 52개의 뼈, 38개의 근육, 214개의 인대로 형성되어 있는데, 얼마나 발이 인체에 있어서 중요한 지를 직접 느낄 수 있게 해주는 대목이다. 또한 발에는 모세혈관과 자율신경이 다른 어느 부위보다 집중적으로 분포되어 있어 발을‘제 2의 심장이다’라고 말하기도 한다. 발은 손 다음으로 많이 사용하는 부위이며 손에 비하여 육중한 무게를 지탱하는 구조로 인하여 많은 에너지를 필요로 한다. 그러므로 발끝까지 산소와 양분을 공급하는 혈관의 혈액이 원활하게 흐를 수 있게 하는 것은 건강에 있어 매우 중요한 요소이다 인체의 신비를 보여주는 우리 몸의 기관 그 두 번째, 발에 대해서 을지의대 을지병원 족부정형외과 이경태 교수, 인제대학교 서울백병원 족부클리닉 이우천 교수의 도움말로 알아본다.

• Progress in Medical Physics
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• v.15 no.2
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• pp.112-119
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• 2004

We tried to build human models based on medical images of live Korean, instead of using standard data of human body structures. Characteristics of mechanical structures of human bodies were obtained from medical images such as CT and MR images. For each constitutional part of mechanical structures CT images were analyzed in terms of gray levels and MR images were analyzed in terms of pulse sequence. Characteristic features of various mechanical structures were extracted from the analyses. Based on the characteristics of each structuring element we peformed image segmentation on CT and MR images. We delineated bones, muscles, ligaments and tendons from CT and MR images using image segmentation or manual drawing. For the image segmentation we compared the edge detection method, region growing method and intensity threshold method and applied an optimal compound of these methods for the best segmentation results. Segmented mechanical structures of the head/neck part were three dimensionally reconstructed.

• Transactions of the Korean Society of Mechanical Engineers A
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• v.34 no.10
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• pp.1393-1401
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• 2010

In this experimental study, we have examined the correlation between a human carpal motion and a surface electromyogram. The carpal motion patterns have been identified and the main muscles involved in the carpal motion have been determined by investigating the anatomical structure of a carpal. The torque acting against the carpal motion has been applied by using a device for carpal rehabilitation training, and the surface electromyogram signal corresponding to the torque at the main muscles has been measured. The root-mean-square (RMS) magnitude of the surface electromyogram signal has been calculated and used to analyze the correlation between the surface electromyogram signal and carpal motion. The experimental results have proved that for carpal torque values below $0.1\;N{\cdot}m$, the RMS magnitude of the surface electromyogram signal is linearly proportional to the carpal torque magnitude and that the carpal torque magnitude is linearly proportional to the cross-sectional area of the carpal muscles. Further, the analysis of the contribution of each muscle to the carpal motion has shown that the contribution of the most dominant muscle is consistently 60%. These three results can be applied to develop more sophisticated devices or robots for carpal rehabilitation training.

• Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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• 2000.05a
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• pp.455-459
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• 2000

신경의 기본단위인 뉴런을 계층 구조형태로 연결하여 자극에 대한 각 뉴런의 신경전달 메카니즘을 분석하고 Na 이온의 값을 변형시켜 활성전위에 미치는 영향을 LINUX를 기초로 한 GENESIS를 이용하여 시뮬레이션을 해 보았다. 뉴런은 미세한 자극뿐만 아니라 이온농도의 변화로 인한 매우 민감하게 반응함으로 신경의 활성전위와 인체를 구성하는 모든 세포에서의 이온농도의 중요성을 간과해서는 안 된다. 본 연구에서는 신경세포를 전기회로 적인 모텔을 기준으로 설계하였으며, 농도의 변화에 의해 활성전위 전달에 큰 변화를 일으켰다. 과대한 농도 변화는 신경에서의 과도한 활성전위와 매우 낮은 전위가 발생함을 알 수 있었다. 이로 인해 인체에 미치는 영향은 신체의 어느 부분이냐에 따라 다르겠지만 뇌에서의 열, 뇌 세포 손상, 근육마비, 심장마비 등의 이상 현상을 추정할 수 있을 것이다.

• The Proceeding of the Korean Institute of Electromagnetic Engineering and Science
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• v.8 no.2
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• pp.22-28
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• 1997

세포는 생명체의 가장 기본단위이다. 식물은 태양 에너지를 변환하여 화학에너지의 형태로 축적한다. 모든 생물은 이 화학에너지를 변환하여 생명을 유지하고 있다. 인체 세포는 이 화학에너지 를 변환하여 세포 자체의 구조를 유지하면서 체온을 유지하고, 근육수축과 같은 기계적인 일과 신경 전달과 같은 전기적인 일도 한다. 또 세포는 새로운 화학물질을 합성하기도 한다. 세포에 이상이 생기면 조직이나 기관의 이상이 따르게 되고 결국 병적인 상태에 이르게 된다.외 부 환경이 세포의 기능에 영향을 미치는 것 중의 중요한 요인이다. 세포에 대한 외부환경은 세포를 둘러 싸고 있는 세포외액과 몸밖에서 들어오는 방사선이나 열과 같은 물리적 에너지로 대별된다. 영양의 불균형이나 섭취한 물질은 세포외액의 항상성 유지를 방해한다. 방사선, 특히 이온화 방사선은 직접 세포속에서 중요한 분자를 분해시키기도 하고 새로운 분자를 합성하기도 하여 세포를 죽이기도 하고 세포의 기능을 비정상적으로 바꾸기도 하고 드물게는 암세포로 바꾸기도 한다. 열은 단백질의 변성 을 촉진한다.