Occupational therapy aims to restore patients’ functional abilities through rehabilitation, with dressing activities being a critical component in activities of daily living assessments. Clothing is essential for physical protection, psychological stability, and promoting social participation. Despite the significance of dressing activities, research on training apparel incorporating occupational therapy principles remains limited. As a preliminary step in developing apparel for dressing activity training, this study aims to identify essential design elements that facilitate in daily living training and hold potential in occupational therapy. A comprehensive literature review and case analysis were conducted to identify essential clothing design components. The research results are as follows. The design features a pattern with a front-center opening, generous armholes, and ease allowances, along with modular components that enable variable collar and pocket configurations. A designated weight pocket is seamlessly integrated without restricting movement. Fabric selections emphasize human safety, comfort, stability, and durability, providing a soft texture and a broad range of color options within the modular design. Additional details include detachable collar and pocket elements, while trims and accessories are executed with buttons or zippers for closure and utilize Velcro, buckles, buttons, or drawstrings for size adjustments, all available in a variety of colors and sizes. This study highlights the need for modular, userfriendly training apparel that support occupational therapy goals. The findings provide fundamental insights into dressing activity training wear, serving as a foundational resource for future research and clinical applications.

In this study, we addressed the prevention of fire extinguishing device malfunction caused by noise in the fire detector of automatic fire extinguishing devices applied to mobile equipment such as armored vehicles and tanks. The automatic fire extinguishing system consists of a fire detection unit, an automatic control unit, and a fire suppression unit. In the case of a fire detector, it is a major component of the fire detection unit. Even though no fire occurred during operation in the field, a number of fire extinguisher sprays occurred, and the malfunction of the fire detector, which is a fire detection unit, was reproduced. The cause was identified as noise in the fire detector connector due to vibration and shock that may occur during operation of the mobility equipment. In order to solve this problem, noise generated momentarily from a fire detector is treated as an exception, and when a fire signal is transmitted from the fire detector to the automatic control unit for more than a certain period of time, Software has been improved to enable fire extinguishers to operate. This study analyzed the causes of malfunctions in automatic fire extinguishing devices, which are components of mobile equipment, and derived improvement measures to improve the reliability of automatic fire extinguishing devices.

선박의 안전운항에서 충돌회피는 핵심적인 요소이며, 자율운항선박의 출현과 인공지능 기술의 발전에 따라 충돌회피 연구가 활발히 진행되고 있다. 그러나 충돌회피 기준 설정에는 객관적인 기준이 없어 어려움이 있으며, 국제해상충돌예방규칙 17조에서도 유지 선박의 충돌회피협력 동작 시점이 명확히 정의되지 않아 실무적인 어려움이 존재한다. 이를 해결하기 위해 Lee and Furukawa(2022)는 새로 운 충돌평가 모델인 CDC(Computed Distance at Collision)를 제안하였으며, 이 모델은 두 선박 간의 충돌 위험을 정확하게 평가하는 데 기여 하였다. 본 연구는 기존 CDC의 한계를 보완하고 실용화를 목표로, 선박의 기준좌표를 GPS 안테나 위치로 개선하여 충돌평가의 실용성을 높이고자 한다. 시나리오로 부산 신항과 통영 입항 구간을 선택하여 개선된 CDC를 적용한 결과, 두 선박 간 충돌 회피의 구체적인 시점 을 정량적으로 도출하였다. 본 연구의 결과는 VTS의 선박 관제에 실질적인 도움을 제공할 수 있는 데이터로 활용될 수 있으며, 향후 선박 운항 안전성을 높이는 데 기여할 것이다.

This study aims to compare six observational methods for assessing arm- and hand-intensive tasks, based on literature review. The comparison was conducted in viewpoints of body regions, force/external load, motion repetition, other factors including static posture, coupling, duration/break, pace, temperature, precision task, and final risk or exposure level. The number of risk factors assessed was more, and assessment procedure was more complex than the observational methods for assessing whole-body postural loads such as Ovako Working Posture Analysis System(OWAS), Rapid Upper Limb Assessment(RULA), and Rapid Entire Body Assessment(REBA). Due to these, the intra- and inter-reliabilities were not high. A past study showed that while Hand Arm Risk Assessment Method(HARM) identified the smallest proportion of the work tasks as high risk, Strain Index(SI) and Quick Exposure Check(QEC) hand/wrist were the most rigorous with classifying most work tasks as high risk. This study showed that depending on the observational technique compared, the evaluation factors, risk or exposure level, and evaluation results were different, making it necessary to select a technique appropriate for the characteristics of the work being assessed.

본고는 기존의 선행 연구를 검토하여 개별언어학이 아닌 일반언어학 관점에서 동 작상(動作相)의 이론적 체계를 제시하고, 이를 개별 언어인 현대 중국어에 적용하여 어떤 동작상이 어떻게 구현되는지를 구명하고자 하였다. 이를 위해 이치론(二値論)과 중간 단계 기준값이라는 중간 숙주 개념을 도입하여 동작상의 체계를 만들었다. 현대 중국어에서 어떤 동작상이 어떻게 구현되는가를 분석하면서 그 구현 방식을 크게 세 가지 측면으로 나누어야 함을 밝혔다. 첫째, 전형적인 문법상인 상 표지 ‘了, 着, 過’가 술어 뒤에 와서 구현하는 것이다. 둘째, ‘正, 在, 正在’와 같은 시간부사가 술어 앞에 위치하여 상적 개념을 나타내는 것이다. 이들은 아직까지 부사어 역할을 하면서 상적 개념을 나타내고 있으므로 현재 일부 연구자들이 상 표지로 보는 견해 와 달리 본고는 아직까지 전형적인 문법상으로 볼 수 없다고 판단한다. 셋째, ‘快{就} (要)…了’처럼 통사 구조를 통하여 상적 개념을 나타내는 것이다. 이것도 전형적인 문법상으로 볼 수 없다. 앞으로 ‘正, 在, 正在’와 같은 시간부사가 과도기를 거쳐 상 표지 역할을 하면서 영 어의 완료형 구조인 ‘have+p.p.’(past participle, 과거분사)처럼 ‘在+V+着’, ‘有+V+過’ 등의 전형적인 분석형 형식으로 변화할지 지켜볼 일이다.

In this paper, as there are many cases of fires occurring due to the failure or inoperability of the thermostat of electronic products, the purpose is to test and analyze the risks and probabilities through fire cases and reproduction experiments, and suggest countermeasures. Among electronic products, water purifiers are composed of a refrigerant system with a compressor to make cold water, a heating device to make hot water, and an electric device used as an energy source. Due to the nature of the water purifier manufacturing, these devices are subject to a lot of moisture and dust. etc. exist in large quantities and use electrical energy, so there is a possibility of fire due to short circuit in the wire, electrical abnormal overheating (tracking phenomenon) in the thermostat, electronic board, starting relay, etc., and overheating of the heating device (Band Heater). there is. Therefore, in order to prevent fires from these devices, a system to remove foreign substances inside the water purifier is necessary, the use of heat-resistant (fire-resistant) wires for electrical devices is essential, and the use of non-combustible materials (semi-combustible materials) for each part is necessary to prevent fire. The risk must be eliminated through prevention and combustion expansion prevention devices.

This study aimed to develop virtual reality (VR)-based content on surgical aseptic techniques for nursing students and evaluate its effectiveness. Methods: The content was developed following the system development life cycle, involving analysis, design, implementation, and evaluation. Experts and fourth-year nursing students validated the content for its validity and usability of the content. The study was conducted from December 2022 to April 2023. Results: The VR content was developed using Keller's ARCS motivational design model (attention, relevance, confidence, and satisfaction) as the fundamental strategy. Upon applying the VR content developed in this study, the research participants confirmed the values of the following sub-factors: confidence (3.86 out of 5), relevance (3.74 out of 5), attention (3.68 out of 5), and satisfaction (3.65 out of 5). Conclusion: VR-based surgical content on aseptic techniques demonstrates potential benefits for nursing students. Therefore, through systematic development and utilizing of diverse nursing skill content, we can enhance the core competencies of nursing students, providing them with high-quality practical education.

This study aimed to develop virtual reality (VR)-based content on surgical aseptic techniques for nursing students and evaluate its effectiveness. Methods: The content was developed following the system development life cycle, involving analysis, design, implementation, and evaluation. Experts and fourth-year nursing students validated the content for its validity and usability of the content. The study was conducted from December 2022 to April 2023. Results: The VR content was developed using Keller's ARCS motivational design model (attention, relevance, confidence, and satisfaction) as the fundamental strategy. Upon applying the VR content developed in this study, the research participants confirmed the values of the following sub-factors: confidence (3.86 out of 5), relevance (3.74 out of 5), attention (3.68 out of 5), and satisfaction (3.65 out of 5). Conclusion: VR-based surgical content on aseptic techniques demonstrates potential benefits for nursing students. Therefore, through systematic development and utilizing of diverse nursing skill content, we can enhance the core competencies of nursing students, providing them with high-quality practical education.

This study aims to empirically investigate effects of motion repetition and external load according to joint motion on discomfort through an experiment. Eighteen college students (female: 9; male: 9) participated in an experiment measuring perceived discomfort using the Borg CR10. Joint(wrist, elbow, shoulder and trunk) motion, its repetition and external load were adopted as independent variables. The results showed that all three independent variables were statistically significant on discomfort. Participants’ sex also significantly affected discomfort obtained in the experiment. While the interactions of joint motion and repetition, and joint motion and external load were not significant at α = 0.05, that of motion repetition and external load was significant. Based on the experimental results, four regression equations by the joints involved were presented, which could be used as a tool for evaluating postural loads by the joints. It may be postulated that based on the results of this study, scoring systems of RULA and REBA, and those of OWAS and REBA underestimates effects of motion repetition and external load, respectively. It is expected that the results of this study will be used as a basic data for developing an observational method properly reflecting the effects of motion repetition and external load.

CFD was used to study the change in the operation of the governor to check the effect of response delay due to residual air in the governor cylinder, which adjusts the pump RPM of the Turbine Driven Aux. Feed Water Pump(TD AFWP) in the Nuclear power plant. As a result of analysis, as the amount of internal air increased, the time delay also increased proportionally, and a time delay of up to 0.2 sec. occurred. As in the theory, it was confirmed that the cylinder operation delay occurred depending on the presence or absence of a compressive fluid such as air, but the time delay wat not enough to significantly affect the pump operation.

The purpose of this study is to verify how similar the virtual fit pants are to the actual fit of stretchable pants. Data is produced using a virtual model to apply movements. The results show that in the upright position, the similarity between the appearance of the actual fit and the virtual fit is high. Results are 4.47, 4.13 and 4.33 out of 5 on the front, side, and back, respectively. The base line of the front and back, and the amount of allowance in each part were well reproduced by the model. The texture of the virtual fit was evaluated and found to be similar to the actual fabric. In terms of shape and number of wrinkles with the virtual fit pants, large wrinkles were better expressed than fine wrinkles. After applying movements to the virtual model, the front and side results were similar to the actual fit, but the back results were different. As a result of multiple comparisons, the greatest difference in similarity by movements is found in the center front line. The similarity difference was lower on the side than on the front. The only significant difference after applying movements is in the hip circumference margin. According to movements, the similarity of virtual fit is lower on the back than on the front and side, and the back also has the largest similarity differences to the movements type.

The purpose of this study was to develop a 3D mesh-type impact protection pad with excellent motion adaptability and functionality by applying 3D printing technology. The hexagonal 3D mesh, which constitutes the basic structure of the pad, comprises two types: small and large. The bridge connecting the basic units was designed as the I-type, V-type, IV-type, and VV-type. After evaluating the characteristics of the bridge, it was found that the V-type bridge had the highest flexibility and tensile elongation. The hip joint pad and knee pad were completed by combining the hexagonal 3D mesh structure with the optimal bridge design. The impact protection pad was printed using a fused deposition modeling-type 3D printer with a filament made of thermoplastic polyurethane material, and the protection pad’s performance was evaluated. When an impact force of approximately 6,500N was applied to the pad, the force attenuation percentage was 78%, and when an impact force of approximately 8,000N was applied, the force attenuation percentage was 75%. Through these results, it was confirmed that the 3D-printed impact protection pad with a hexagonal 3D mesh structure connected by a V-shaped bridge developed in this study can adapt to changes in the body surface according to movement and provides excellent impact protection performance.

본 연구의 목적은 정적 플랭크 운동의 동작 차이에 따른 코어근육의 근활성도를 비교하는 것이 었다. 본 연구의 대상자는 “J”대학교 20대 남성 10명을 대상으로 진행하였고(연령, 23.20±0.65 세; 신장, 174.54±1.51 cm; 체중, 70.00±2.24 kg; 신체질량지수, 22.94±0.51 kg/m2), 4가지의 풀, 엘보우, 사이드 및 리버스 정적 플랭크 동작을 수행하였으며, 근전도 분석을 위한 표면전극 부착 부위는 신체 근육의 우측 복직근, 외복사근, 광배근 및 척추기립근으로 설정하였다. 본 실험 결과, 광배근과 척추기립근의 근활성도 는 리버스 플랭크 동작 시 가장 높게 나타났고(p<.001), 복직근과 외복사근의 근활성도는 엘보우 플랭크 동작 시 가장 높게 나타났다(p<.001). 따라서 본 연구의 결과는 추후 정적 플랭크 동작 시 효과적인 운동 프로그램의 자료가 될 것으로 기대된다.

For clothing items that combine the top with the bottom, such as a jumper suit, it is necessary to design original forms to develop clothes in various styles that can satisfy aesthetic and functional needs. Therefore, to determine the original forms of women’s jumper suits, this study aimed to analyze the patterns of women’s jumper suits being sold in the market comparatively and evaluate their fitness. For the study method, this researcher obtained five types of women’s jumper suits from local brands and compared the patterns’ measured sizes, then conducted exterior evaluation on the surplus according to five different movements and analyzed the values of distortion of clothing pressure comparatively. According to the results, in the basic posture, brands A and C received favorable results, while in the other movements, brand B, which had the biggest surplus on the bottom, was evaluated favorably. In conclusion, in the patterns of women’s jumper suits, a bigger surplus is added to either the crotch length or crotch girth rather than the top length, and the top and the bottom tend to have a different surplus according to the design. In addition, based on the values of body surface lengths according to the range of movements, this study suggests that an additional surplus be added to the length.

본 연구의 목적은 본 연구에서는 탄소나노튜브 기반의 신축성 직물 센서의 모양과 의복 상 부착 위치가 아동의 사지 관절 동작 센싱 성능에 미치는 영향을 분석하고, 이를 통해 아동의 사지 동작 센싱에 적합한 직물 동작 센서의 요건을 규명하고자 하였다. 실험 대상 아동에게 2종의 센서 모양과 2개의 센서 부착 위치에 따라 조작된 실험복을 착의시킨 후 60 deg/sec의 속도로, 팔과 다리의 굽힘-폄 동작(60°, 90°의 동작 각도별로 10회씩 3회 반복 동작, 총 60회 동작)에 의한 직물 센서의 신장과 수축에 따른 전압의 변화량을 측정하였으며, 가속도 센서를 함께 부착하여, 센싱 결과의 일치 도를 분석함으로써 신뢰도를 검증하였다. 실험 결과 아동의 팔과 다리 동작을 가장 효율적으로 측정할 수 있는 직물 센서의 구성 요건은 장방형 모양 센서 및 관절로부터 4㎝ 아래 부위에 부착된 센서로 나타났다. 본 연구에서는 아동의 사지 동작 측정에 적합한 직물 센서를 개발하고 관절동작 센싱에 적합한 센서의 모양과 의복 상 부착 위치에 대한 조건 을 분석하였으며, 의복에 통합된 유연한 직물 센서를 활용하여 인체 부위별 동작 센싱이 가능하다는 것을 규명하였다.