研究者業績

菅間 敦

スガマ アツシ  (Atsushi Sugama)

基本情報

所属
成蹊大学 理工学部 理工学科 准教授
学位
博士(工学)(首都大学東京)

J-GLOBAL ID
201401070115064734
researchmap会員ID
B000237021

論文

 37
  • 高橋 明子, 三品 誠, 菅間 敦
    土木学会論文集F6(安全問題)特集号 79(24) 23-24003 2023年10月  査読有り
  • 平内 和樹, 菅間 敦
    人間工学 59(4) 148-158 2023年8月  査読有り最終著者
  • Atsushi Sugama, Takahiro Nishimura, Kouki Doi, Shigenobu Shimada, Manabu Chikai, Kiyohiko Nunokawa, Shuichi Ino
    Work 72(2) 677-685 2022年6月  査読有り筆頭著者責任著者
    BACKGROUND: Manual operations of the hydraulic jack device can become ergonomic stressors for the musculoskeletal system because of the required operational forces, muscle activities, or working postures. However, the usability of the hydraulic jack has not been fully explored for non-professional personnel. OBJECTIVES: To evaluate the musculoskeletal loads during manual operations of a hydraulic jack based on the ergonomic postural analysis and electromyography METHODS: Nine men operated the lever of a hydraulic jack with three positions: parallel to and near (P-N), parallel to and far from (P-F), and orthogonal to the jack lever (O). Postural loads were evaluated by Loading on the Upper Body Assessment (LUBA), an ergonomic observational method, and were classified into action categories. The surface electromyogram of eight muscles and the subjective sense of burden were also measured. RESULTS: The initial force for lever pushing reached 40–80 N and exceeded the recommended forces for the unusual postures. The overall assessment of LUBA showed that 31% of working postures observed in O position require immediate consideration and corrective action and the maximum holding time estimated was < 1 minute. The postural load increased due to the shoulder joint abduction in the P-F and O positions and due to the trunk rotation in O position. CONCLUSIONS: The results suggest that operating the hydraulic jack cause considerable postural loads and manual forces insufficient for several minutes of manual task. Therefore, improving working methods and tool designs are needed to improve usability and decrease the risk of musculoskeletal disorders during jack operations.
  • Atsushi Sugama, Akihiko Seo
    Sensors 21(11) 3909-3909 2021年6月5日  査読有り
    Background: Loss of balance is a considerable risk factor for workers while using ladders, because they are required to maintain static postural balance on platforms of a restricted size. This study observed center of mass (CoM) and center of pressure (CoP) behaviors and evaluated the effects of the platform depth (anterior–posterior length) and working postures. Methods: Eleven male participants stood on four platforms with depths ranging from 6 to 15 cm and maintained their positions for 60 s while performing or not performing other tasks (object holding, upward viewing, or both simultaneously). The kinematics were analyzed on the sagittal plane based on the inverse pendulum model. Results: The absolute moving range for the CoP–CoM linearly increased with the decreasing platform depth, and the working postures affected the slopes of the linear fits. The relative range of CoP–CoM displacement on narrow platforms was highly correlated with the subjective sense of instability. Conclusions: Monitoring the CoP is effective for a better understanding and evaluation of static postural balance. This study’s findings contribute to improving the design of work equipment through the use of wider platforms that are robust against the effects of working postures.
  • Atsushi Sugama, Akiko Takahashi, Akihiko Seo
    Proceedings of the 21st Congress of the International Ergonomics Association (IEA 2021) 689-696 2021年6月  査読有り筆頭著者責任著者
  • Mana Nishino, Ryosuke Nakajima, Akiko Takahashi, Atsushi Sugama
    2021 IEEE 8th International Conference on Industrial Engineering and Applications, ICIEA 2021 79-83 2021年4月  査読有り
    This study focuses on work procedure manuals used on construction sites and aims to obtain basic findings related to work procedure manuals that are easy-to-understand for workers, including younger workers. Specifically, work procedure manuals in actual construction sites were analyzed from the perspective of 5W1H, and identified problems through improvement review meetings which included experts of occupational safety. Then, new work procedure manuals for resolving these problems were devised, and also some video-based prototypes which effectively showed the work procedure manuals to workers were created. Furthermore, the proposed work procedure manuals and the video-based prototypes were evaluated by a practitioner in an actual construction site. As the results, it is shown that the proposed work procedure was evaluated overall as easy-to-understand for new workers, although some aspects needed improvement. From the above, we clarified the requirements of work procedure manuals that are easily understandable for new workers.
  • 北條理恵子, 大塚輝人, 堀智仁, 菅間敦, 崔 光石
    労働安全衛生研究 13(2) 151-155 2020年9月  査読有り
  • Atsushi Sugama, Yasuhiro Tonoike, Akihiko Seo
    Human Factors and Ergonomics In Manufacturing 30(3) 195-203 2020年5月1日  
    This study investigates the functional stability limits (FSLs) in the squatting positions. Eleven male participants leaned and moved their pelvis horizontally in the clockwise and counter-clockwise directions while squatting at 11 depth levels. The depth was controlled by changing the hip height from 100% to 0% of the upright position. The FSLs and the center of pressure excursion lengths were calculated from the force-plate data, and the musculoskeletal loads on the lower limbs were estimated from the joint torques and surface electromyograms. As the hip height reduced, the area of the FSLs narrowed by up to 20% of the base of support (BOS) area at the deepest squatting position. The narrowing was affected by the decreasing FSLs in the forward direction, which also decreased by up to 20% of BOS. These quantitative data accurately evaluate the postural stability, suggesting a considerable fall risk during tasks requiring the squatting position.
  • Atsushi Sugama, Akihiko Seo
    Advances in Intelligent Systems and Computing 819 710-716 2019年  査読有り
    Falls from heights are the most common causes of occupational fatal accidents in many countries; using agents, such as stepladders or scaffolds, is one of the main causal factor. This study aims to evaluate the postural stability of static standing on narrow platforms. Eleven male participants stood on five platforms that had anterior/posterior widths ranging from 6 to 25 cm and maintained their position for 50 s. The coordinates and velocities of center of mass (CoM) and center of pressure (CoP) were calculated from kinematic data of human body and foot reaction forces. The results showed that the relative position of CoP to the platform width and the translational velocity non-linearly increased with shortened platform width and more significantly changed than the relative position of CoM, while there was no significant difference between the 15-cm and 25-cm platforms. The regression lines of the relative position and the velocity of CoP were approximated as a function of the inverse of the platform width or the square, respectively. Shortened platforms make the postural balance of static standing non-linearly unstable, whereas platforms that are 15 cm or wider stabilize the postural perturbation comparable to that achieved on the ground. Therefore, the equipment with a platform or rungs at least 15 cm or wider should be recommended for tasks at elevated places.
  • Kazuki Hiranai, Atsushi Sugama, Takanori Chihara, Akihiko Seo
    Advances in Intelligent Systems and Computing 824 332-337 2019年  査読有り
    In recent year, the evaluation method of human motion to clarify the usability is needed because it is a hard task to assess the subjective evaluation of usability of product and the comfort of the environment. This study aimed to analyze neck motion using feature extraction with motion division and clarify the relationship between neck motion and workability. We propose the motion division method based on the calculation of probability density function from the Gaussian distribution. The algorithm being proposed uses the analysis of the measured data by an experiment. As part of the experiment, each participant was instructed to gaze at a target while in the sitting posture. The working posture of each participant was measured to evaluate the effects of working velocity on the position of the target. The numbers of extracted feature point decreased with the decreasing working velocity. The normal working velocity condition maximized the number of extracted feature points. Moreover, participants answered the best subjective workability under normal conditions. These results show that increasing the number of extracted feature points may improve workability.
  • Akihiko Seo, Maki Sakaguchi, Kazuki Hiranai, Atsushi Sugama, Takanori Chihara
    Advances in Intelligent Systems and Computing 825 82-86 2019年  査読有り
    In this study, we sought to develop a system to evaluate the workload of multiple sequential tasks using a digital human and muscle fatigue model, as well as test its validity using a sequential task experiment. The muscle fatigue model is the three-component model introduced by Xia et al. The model assumes that the muscle motor unit consists of resting, activated, and fatigued components. We used a temporal smoothed value of the active component ratio to the non-fatigued component to estimate workload. A system was developed using this model to evaluate workload of any combination of sequential tasks of the single manual handling task. A sequential task consisting of three kinds of material handling task performed by a digital human and real environment was prepared as a validity test. We found that the estimated workload using the simulation and the subjective scores showed a similar pattern with the load of the sequential tasks and repetitions.
  • 中尾許弘, 加藤善久, 菅間敦
    人間工学 54(3) 2018年  査読有り責任著者
  • Takeshi Yamaguchi, Ryo Yamada, Iori Warita, Kei Shibata, Akihito Ohnishi, Atsushi Sugama, Mamoru Hinoshita, Koichi Sakauchi, Seiko Matsukawa, Kazuo Hokkirigawa
    Journal of Biomechanical Science and Engineering 13(1) 2018年  査読有り
    The cart-type friction measurement device developed by the authors facilitates measurement of both the static coefficient of friction (SCOF) and the dynamic coefficient of friction (DCOF) between the shoe and the floor simultaneously, as well as measurement with variation in sliding velocity. However, whether slip-resistance evaluation using this cart-type friction measurement device corresponds to the actual slip and fall risks is unclear. To investigate the validity of evaluation of slip resistance between the shoe and the floor by using the SCOF and DCOF values measured with a cart-type friction measurement device, we aimed to investigate the relationship between the slip angle in a ramp test and the coefficient of friction (COF) values between the test safety shoe and the 10 test floor sheets contaminated with a glycerol solution. The results indicate that the SCOF values and the DCOF values corresponding to sliding velocity lower than 0.3 m/s are highly correlated with the slip angle in the ramp test, which suggests that the cart-type friction measurement device can simulate the slip between the shoe and the floor in the ramp test under such sliding velocity conditions. Because the ramp test has been used widely to assess the slip resistance of floors and because the slip angle is highly correlated to the risk of slip-induced falls during level walking, the results suggest that the cart-type friction measurement device is valid and effective for assessing the slip resistance between the shoe and the floor. This study provides new information about the evaluation of slip resistance and indicates that the cart-type friction measurement device will contribute toward the prevention of slip-induced fall accidents.
  • 菅間敦
    労働安全衛生研究 10(1) 2017年  
  • 菅間敦, 瀬尾明彦
    人間工学 53(4) 125-132 2017年  査読有り
  • Akihiro Ohnishi, Masato Takanokura, Atsushi Sugama
    Safety and Health at Work 7(3) 237-243 2016年9月  査読有り
    Background This study examined the relationship between interhandle distances and upper limb exertion during simply pushing and pulling of a cart with four swivel wheels, defined by a roll box pallet (RBP) in a Japanese industrial standard. Methods Six healthy young male participants were asked to push and pull an RBP at a distance of 5.2 m under six conditions corresponding to different interhandle distances (40 cm, 60 cm, and 80 cm) and weights (130 kg and 250 kg). The upper limb exertion was studied by shoulder abduction and flexion, and elbow flexion, as well as surface electromyogram (EMG) in shoulder extensor, and elbow flexor and extensor. Participants were required to provide subjective evaluations on operability after each trial. Results Subjective operability indicated that a narrower interhandle distance had a better operability for pushing. Interhandle distance was also related to upper limb exertion especially for pushing. A narrow interhandle distance caused smaller shoulder adduction but larger elbow flexion. The normalized EMG data revealed that muscular activity became smaller with a narrow interhandle distance in shoulder extensor. During the pulling task, elbow flexion was smaller at a narrow interhandle distance, although subjective operability and normalized EMG were not significantly varied. Conclusion A wider interhandle distance, such as 80 cm, was not suitable in the forwardbackward movement of the RBP. Therefore, this study concluded that an interhandle distance of 40 cm would be suitable for pushing and pulling an RBP to protect the workers’ hands against the risk of injury by installing inner handles.
  • 菅間敦, 大西明宏
    人間工学 52(1) 40-48 2016年  査読有り
  • 菅間敦, 大西明宏, 高野倉雅人
    日本経営工学会論文誌 67(3) 225-231 2016年  査読有り
  • 菅間 敦, 大西 明宏
    労働安全衛生研究 2015年  
    脚立が起因物となって発生した労働災害(脚立起因災害)の頻発が問題視されているが,これまでに調査報告はなく,その実態が明らかにされていない.本研究では,日本国内における脚立起因災害の実態を把握するため,労働災害事例について調査を行った.分析は,厚生労働省の休業4日以上の労働者死傷病報告のうち,平成18年に発生した34,195件(全災害の25.5%)を対象とした.そして,業種,傷病,傷病部位,休業日数,被災者年齢,性別,経験年月数の項目についてそれぞれ整理した.調査の結果,992件(うち死亡災害6件)を抽出し,年間発生件数は3,896件(95%CI: 3,657–4,135)と推計された.これは当年の全労働災害の2.9%(95%CI: 2.7–3.1)に該当していた.また,被災者の68.6%が骨折し,64.9%が31日以上休業していたことから,脚立起因災害は重篤な負傷につながりやすいことが明らかとなった.脚立起因災害の特徴としては,70.4%が脚立上での作業中に発生し,19.4%が脚立を下りる際に,7.9%が上る際に発生していた.業種別の内訳では,建設業が45.5%,製造業が15.5%,商業が12.3%であり,建設業と製造業では経験20年以上の高年齢労働者が多いのに対し,商業では経験1年以下の被災者が多く,31.1%が女性であるなど,業種によって被災者の属性に違いが見られた.本研究の結果から,重篤な負傷が発生しやすい脚立起因災害の防止に向けた取り組みが必要であることが示された.
  • Atsushi Sugama, Akihiro Ohnishi
    Procedia Manufacturing 3 6632-6638 2015年  査読有り
    In this study, occupational accident cases in Japan were analyzed to better characterize accidents due to the use of stepladders. The analysis investigated 34,195 occupational accidents that resulted in at least a four-day absence from work in 2006 (25.5% of total occupational accidents), based on casualty reports from the Japanese Ministry of Health, Labour and Welfare. The instances were classified by industry type, accident type, number of absent days, victim's age, gender, employment period, injury/disease type, and injured body part. The results of the analysis revealed that there were 992 accidents (six were fatal) due to stepladders in 2006, representing 2.9% of all accidents that year. The total number of estimated accidents that year was 3,896 (24 were fatal). The results also indicated that individuals who fell from stepladders most frequently suffered from fractures (68.6%) or contusions (16.2%) and that 64.9% of all victims took more than a month's leave of absence. The most common injured parts were the lower limbs (34.7%) and the upper limbs (21.4%). For 18.4% victims, the length of employment with the company they were working for at the time of the accident was one year or less. Most of the accidents occurred while standing on the stepladder (70.4%), whereas 19.4% and 7.9% of the accidents occurred during descending and ascending, respectively. Moreover, out of all the stepladder accidents in 2006, 45.4% occurred in the construction industry, 15.5% in the manufacturing industry, and 12.3% in the commercial industry. The occurrence rate of stepladder accidents in different industries were 7.9% in construction, 4.4% in cleaning, and 3.8% in agriculture and forestry, which were higher than the mean rate (2.9%). This result demonstrates that further research is needed to investigate the working methods with stepladders and their risk evaluation.
  • 菅間敦, 大西明宏
    労働安全衛生研究 8(2) 91-98 2015年  査読有り
  • 土井 幸輝, 菅間 敦, 西村 崇宏, 瀬尾 明彦, 井野 秀一, 布川 清彦, 小菅 一彦
    日本感性工学会論文誌 13(2) 333-339 2014年  査読有り
    We developed a new aramid-fiber white cane that is lightweight, resistant to breakage, and reduces injury caused by the cutting surface. This paper presents the results of evaluating the cane strength and the load on a user's muscles by comparing the new cane (aramid-fiber) with an existing one (carbon-fiber). Six male subjects participated in an experiment analyzing physical load reduction, in which the participants were required to wave a cane for 10 min using only wrist movement in a standing position. The surface electromyogram of five forearm muscles and the mental workload of the upper limb were analyzed. The results indicated that the new aramid-fiber white cane reduced the physical load on the muscles (flexor carpi radialis muscle, extensor carpi radialis muscle, flexor carpi ulnaris muscle, pronator teres muscle) by about 10~40% in comparison with the carbon-fiber white cane. However, the physical load on the extensor carpi ulnaris muscle, which is used during wrist extension, increases by about 30%.
  • 土井幸輝, 西村崇宏, 菅間敦, 田中隆, 栗田晃宜, 畠山卓朗, 金森克浩
    日本感性工学会論文誌(Web) 13(3) 474-477 2014年  査読有り
  • 菅間敦, 泉明星彩, 瀬尾明彦
    人間工学 50(4) 135-142 2014年  査読有り
  • Atsushi Sugama, Akihiko Seo
    Proceedings - 2013 International Conference on Biometrics and Kansei Engineering, ICBAKE 2013 62-65 2013年  査読有り
    Data for handling forces exerted by individuals during manipulation or assembly tasks are important for calculating the physical load on the body. However, because it is difficult to extract features from force data using conventional waveform analysis methods due to the noisy and nonstationary characteristics of the data, we focused on wavelet transform analysis, which is used to analyze nonstationary signals and pulse waves, and attempted to apply spectral analysis to the handling of force data. The purpose of this study was to develop a new waveform analysis method for handling force data using wavelet transform and demonstrate its effectiveness. First, to discriminate between human handling force components and other components in the data, a wavelet multiresolution analysis was applied to pushing force data obtained by using a push button switch and the human handling force component was extracted. Second, time and phase shifts in feature points such as edges and peaks were compared between the raw and extracted waveforms. The results show that temporal and phase shifts for feature points were sufficiently small, and this method proved superior to the approach of smoothing the handling force waveform. This method makes it possible to find a pattern for handling force exertion and understand its features. © 2013 IEEE.
  • K. Doi, A. Sugama, T. Nishimura, S. Ino, K. Nunokawa, M. Sugiyama, K. Kosuge, A. Miyazaki
    IFMBE Proceedings 39 IFMBE 2019-2022 2013年  査読有り
    The purpose of this research is to clarify the influence of the weight of white canes on body load. More specifically, we conducted quantitative evaluations of the load on upper limb muscles when a white cane was manipulated over a long period of time, while the subject remained in a stationary standing position. The white canes used were a new type of white cane newly fabricated using aramid fibers, as well as a conventional type of white cane fabricated using carbon fibers. The results indicated that the newly developed cane reduced the load on the muscles by about 50% in comparison with the conventional type of cane. It became clear that it was possible to sustain the same posture even when used continuously over a long period of time. © 2013 Springer-Verlag.
  • Kouki Doi, Atsushi Sugama, Takahiro Nishimura, Akihiko Seo, Shuichi Ino, Kiyohiko Nunokawa, Kazuhiko Kosuge, Akito Miyazaki, Masaaki Sugiyama, Yoshihiro Tanaka, Mayumi Sawada, Ken Kaneko, Susumu Ouchi, Katsuhiro Kanamori
    Communications in Computer and Information Science 373(PART I) 231-235 2013年  査読有り
    The present study aimed to investigate the influence of the weight of white canes on upper limb load. Concretely, we conducted quantitative evaluations of the load on upper limb muscles during swinging action of the cane. The white canes used were a new type of white cane newly fabricated using aramid fibers, as well as a conventional type of white cane fabricated using carbon fibers. The results indicated that the newly developed cane reduced the load on the muscles by about 50% in comparison with the conventional type of cane. It became clear that it was possible to sustain the same posture even when used continuously over a long period of time. © Springer-Verlag Berlin Heidelberg 2013.
  • 菅間敦, 門松誠, 瀬尾明彦
    日本経営工学会論文誌 64(3) 420-427 2013年  査読有り
  • 菅間敦, 瀬尾明彦
    人間工学 49(6) 271-278 2013年  査読有り
  • Atsushi Sugama, Akihiko Seo
    Proceedings of the Asia Pacific Industrial Engineering & Management Systems Conference 2012 (APIEMS2012) 1552-1555 2012年12月2日  査読有り筆頭著者
  • Atsushi Sugama, Akihiko Seo
    Proceedings of 11th International Conference on Industrial Management (ICIM2012) 159-163 2012年8月29日  査読有り筆頭著者
    During the design phase of industrial products, several attempts are made to use human 3D CAD models for estimating the physical loads exerted from products used and assembled at work. Physical loads are commonly evaluated by biomechanical analyses, which estimate the load on joints and muscles by using data obtained from the working posture and external forces caused by product handling. However, the magnitude and direction of handling forces under certain conditions are not unique because these forces have many degrees of freedom. This causes difficulty in automatically generating handling force data, and it requires us to collect real force data by experiments. The purpose of this study is to develop a database system that contains major types of handling force data and a system that contributes to the reduction in the analysis time for ergonomic evaluation. In this paper, we introduce the basic concept of a force database, a procedure for measuring real force data, and an outline of the user interface of our system.
  • 菅間敦, 瀬尾明彦, 土井幸輝, 不破啓文
    日本経営工学会論文誌 62(3) 67-74 2011年8月15日  査読有り
  • 菅間敦, 中野有敬, 瀬尾明彦, 土井幸輝
    日本経営工学会論文誌 62(3) 86-94 2011年8月15日  査読有り
  • 菅間敦, 岩本直樹, 瀬尾明彦, 土井幸輝
    日本経営工学会論文誌 62(5) 213-221 2011年  査読有り
  • 菅間敦, 瀬尾明彦, 土井幸輝, 山口眞美子
    人間工学 46(3) 223-229 2010年  査読有り
  • 菅間敦, 瀬尾明彦, 土井幸輝
    人間工学 46(1) 37-43 2010年  査読有り

MISC

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書籍等出版物

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講演・口頭発表等

 19

担当経験のある科目(授業)

 11

Works(作品等)

 3

共同研究・競争的資金等の研究課題

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社会貢献活動

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メディア報道

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