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2. Markerless motion capture of hands and fingers in high-speed throwing task and its accuracy verification

Author

Ayane KUSAFUKA, Naoki TSUKAMOTO, Kohei MIYATA, and Kazutoshi KUDO

Subjects
deeplabcut, markerless motion capture, accuracy verification, throwing, high-speed, Mechanical engineering and machinery, TJ1-1570
Abstract

In human motion capture systems, reflective markers attached to the body have been widely used to track motion using optical cameras. However, when the speed of motion increases, because the brightness and angle of view of the camera are limited, and the markers often fall off, particularly of detailed body parts such as fingers in full-body movements, other parts of the body (palms) have been investigated. This study attempted to acquire finger movements during a high-speed throwing task without attaching markers using automatic image recognition technology based on deep learning (DeepLabCut) and verified its accuracy compared to conventional methods. As a result, the absolute distance between the 3D coordinates obtained from the two motion capture systems was an average of 15.5 to 29.4 mm depending on tracked points, and the correlation coefficients between them ranged from 0.932 to 0.999. Therefore, the shapes of the time-series profiles of the 3D coordinates obtained from the two motion- capture systems were similar. These results suggest that motion measurement using markerless motion capture is possible in environments where conventional motion capture systems are difficult to use.

Published
2023
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3. The ability to appropriately distinguish throws for different target positions

Author

Ayane Kusafuka, Rintaro Yamamoto, Taishi Okegawa, and Kazutoshi Kudo

Subjects
pitching, accuracy, pitch location, different target, control, Sports, GV557-1198.995
Abstract

Repeated and accurate throwing of an object to a target position is a special human motor skill. It is particularly important to understand accuracy, which has received less attention than speed due to difficulties in measurement. Accuracy has been studied in terms of reducing errors against a single target, but also in terms of distinguishing appropriate throws for targets in different positions. In this study, this ability was investigated by evaluating the two-dimensional distributions of the pitch locations of 15 pitches to three target positions in university students with and without baseball experience. The center, major and minor axis length, major and minor axis ratio, slope, area, and percentage of overlapping area of the 95% confidence ellipse were compared between target positions and participants using a two-way repeated-measures analysis of variance (ANOVA). The center and area of the ellipse indicate the mean and variability of the error, respectively. The lengths of the major axes correspond to the variability of the release timing, and the minor axes correspond to the variability of the release point in space. Therefore, the ratio of the major and minor axes indicates how the variability of the pitching motion is controlled. The slope of the ellipse corresponds to the throwing arm's trajectory, and the percentage of overlap area means the ability to distinguish throws at different target positions. The result showed a main effect of participants on all indices except the center of the ellipse. This indicates that participants can generally distinguish throws by target positions regardless of their baseball experience, although participants with baseball experience may naturally reduce variability. Furthermore, participants with baseball experience demonstrated a decrease variability in release timing, which is a primary contributor to the pitch location variability, relative to the spatial variability of the pitching movements. This reduction in timing variability may be attributed to advanced motor control mechanisms.

Published
2023
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4. Coordination dynamics of thoracic and abdominal movements during voluntary breathing

Author

Mimu Higashino, Kohei Miyata, and Kazutoshi Kudo

Subjects
Medicine, Science
Abstract

Abstract Thoracic and abdominal movements can be tightly coupled during voluntary breathing, such as when singing and playing wind instruments. The present study investigated the coordination of thoracic and abdominal movements during voluntary breathing using a dynamical systems approach. We examined whether there are two stable coordination patterns, and if the coordination pattern would abruptly change when the breathing frequency increased, which is known as phase transition. The participants inhaled and exhaled repeatedly at 7.5, 15, 30, 60, or 120 breaths per minute. At the beginning and end of the experiment, the participants performed breathing at their preferred frequency. As a result, the coordination pattern at the lower and preferred frequencies exhibited an in-phase pattern. When breathing frequency increased, participants showed deviated coordination patterns from the in-phase pattern to either a thoracic-leading pattern, an abdominal-leading pattern, or an anti-phase pattern depending on the individual. These deviations occurred gradually; thus, phase transition was not observed. Our findings suggest that thoracic and abdominal movements are tightly coupled at lower frequencies, but their patterns vary depending on the breathing frequency and individuals. Therefore, the present study suggests the importance of viewing breath control in terms of coordination of thoracic and abdominal movements.

Published
2022
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5. Putting things in and taking them out of containers: a young child's interaction with objects

Author

Chihiro Nishio, Hikaru Nozawa, Hiroe Yamazaki, and Kazutoshi Kudo

Subjects
child-object interaction, natural observation, development of organized behavior, carrying objects, social interaction, Psychology, BF1-990
Abstract

IntroductionHow does the behavior of putting things away (putting them in) in a container and using them again (taking them out) develop in young children? Though object interaction is one of the most examined topics in child development, research on organized behavior with various objects and containers at home is lacking. Rather than conducting experiments on young children's interactions with objects, this study focused on natural child–object interaction in the home.MethodsWe conducted a case study on a young child's natural interaction with objects at home, focusing on when the child puts them in or takes them out of a container (the shelf, the cabinet, or the box). The study took place over 2½ years.ResultsThe behaviors of putting many objects in a container and taking them out appeared at 9 months old. After acquiring the skill of walking, the child carried the objects using bags. Putting objects in and taking them out was embedded in the locomotion, and the child prepared the containers of toys before play. Pulling as many objects out as possible became rare after 19 months of age. Taking objects out became more appropriate in that context. The child brought out the container before the activity and put things away afterward.DiscussionBased on these findings, the development of organized object interaction as well as the anticipation and significance of the naturalistic longitudinal observations are discussed.

Published
2023
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7. Auditory interaction between runners: Does footstep sound affect step frequency of neighboring runners?

Author

Hiroaki Furukawa, Kazutoshi Kudo, Kota Kubo, Jingwei Ding, and Atsushi Saito

Subjects
Medicine, Science
Abstract

This study aimed to investigate the effect of footsteps of a neighboring runner (NR) on the main runner's step frequency (SF), heart rate (HR), and rating of perceived exertion (RPE). The participants were male long-distance runners belonging to a university track and field team. Two experiments were conducted in which the main runner (participant) and NR (examiner) ran with the same running speed on two adjacent treadmills separated by a thin wall. The participants were instructed that the experimental purpose was to investigate the HR when running with others and running alone. In Experiment 1, NR performed three trials of changing the footstep tempo in 5 bpm (beat per minute) faster (+5bpmFS), 5 bpm slower (-5bpmFS), or no footsteps (NF) conditions. The results showed that the footstep condition affected the variability of the SF but not the mean SF. Next, Experiment 2 was conducted by increasing the footstep tempo condition. NR performed seven trials of changing the footstep tempo by ±3 bpm, ±5 bpm, ±10 bpm, or no footstep. The results showed that the footstep condition affected the mean SF and the SF decreased at -10bpmFS compared to NF. There were no differences in the HR and RPE between conditions. These results indicated that the footsteps of NR could influence the SF, although it was unclear whether footsteps were involved in the synchronization between runners. Overall, our findings emphasize the environmental factors that influence running behavior, including the NR's footsteps.

Published
2023
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8. Sensorimotor strategy selection under time constraints in the presence of two motor targets with different values

Author

Ryoji Onagawa and Kazutoshi Kudo

Subjects
Medicine, Science
Abstract

Abstract Goal-directed movements often require choosing an option from multiple potential goals under time constraints. However, there are limited studies on how humans change their time spent on decision-making and movement patterns according to time constraints. Here, we examined how sensorimotor strategies are selected under time constraints when the target values are uncertain. In the double-target condition, the values were uncertain until the movement onset and presented immediately afterwards. The behavior in this condition was compared to the single-target condition, in relation to time constraints and target-separation-angles. The results showed that the participants frequently used the choice-reaction even under tight time constraints, and their performance was consistently lower than that in the single-target condition. Additionally, in the double-target condition, differences in the movement trajectory depending on the time constraint and target-separation angle were confirmed. Specifically, the longer the time constraint, the higher the frequency of the intermediate behavior (to initiate movement toward the intermediate direction of two targets) or the change-of-mind behavior (to change the aiming target during movement). Furthermore, the smaller the target-separation angle, the higher the frequency of intermediate behavior, but the frequency of change-of-mind was not affected by the target-separation angle. These results suggest that the participants initiated the movement at an incomplete value judgment stage in some trials. Furthermore, they seemed to select a strategy to utilize the information obtained during the movement, taking into account the time constraints and target-separation angle. Our results show a consistent cognitive bias in choosing a higher value when multiple alternatives have different values. Additionally, we also suggest flexibility and adaptability in the movement patterns in response to time constraints.

Published
2021
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9. Modulation of initial movement for double potential targets with specific time constraints

Author

Ryoji Onagawa and Kazutoshi Kudo

Subjects
Medicine, Science
Abstract

Abstract In goal-directed behavior, individuals are often required to plan and execute a movement with multiple competing reach targets simultaneously. The time constraint assigned to the target is an important factor that affect the initial movement planning, but the adjustments made to the starting behavior considering the time constraints specific to each target have not yet been clarified. The current study examined how humans adjusted their motor planning for double potential targets with independent time constraints under a go-before-you-know situation. The results revealed that the initial movements were modulated depending on the time constraints for potential targets. However, under tight time constraints, the performance in the double-target condition was lower than the single-target condition, which was a control condition implemented to estimate performance when one target is ignored. These results indicate that the initial movement for multiple potential targets with independent time constraints can be modified, but the planning is suboptimal.

Published
2021
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10. Flexible planning of corrective responses for double-step reduction in the number of potential targets

Author

Ryoji Onagawa and Kazutoshi Kudo

Subjects
Medicine, Science
Abstract

Abstract Humans are often required to plan/execute movements in the presence of multiple motor targets simultaneously. Under such situations, it is widely confirmed that humans frequently initiate movements towards the weighted average direction of distinct motor plans toward each potential target. However, in situations where the potential targets change in a step-by-step manner, the strategy to proceed towards the weighted average direction at each time could be sub-optimal in light of the costs of the corrective response. Herein, we tested the sensorimotor strategy followed during a step-by-step reduction of potential goals. To test the hypothesis, we compared the corrective responses when the number of targets went from three to two, and when the number of targets went from three to one at the same time. As the results, weak corrections were confirmed when the number of targets was reduced from three to two. Moreover, the corrective responses when the number of targets went from three to two was smaller than the average behavior estimated from the corrective responses when the number of targets went from three to one at the same time. This pattern of corrective responses reflects the suppression of unnecessary corrections that generate noise and cost to the control system. These results suggest that the corrective responses are flexibly modulated depending on the necessity, and cannot be explained by weighted average behavior.

Published
2021
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11. Different planning policies for the initial movement velocity depending on whether the known uncertainty is in the cursor or in the target: Motor planning in situations where two potential movement distances exist.

Author

Ryoji Onagawa, Kae Mukai, and Kazutoshi Kudo

Subjects
Medicine, Science
Abstract

During goal-directed behaviors, individuals can be required to start a movement before deciding on the final goal. Previous studies have focused on the initial movement direction in situations involving multiple targets in different directions from the starting position and have shown that the movement is initiated in the average direction among the target directions. However, the previous studies only included situations with targets at equivalent distances, and the characteristics of motor planning in situations with multiple movement possibilities over different potential distances are unclear. In such situations, movement velocity is another important control variable. Furthermore, while previous studies examined situations with an uncertain motor target position, uncertainty can also exist in the effector position (e.g., body or tool locations). Therefore, we examined (1) whether the average output is confirmed in the initial movement velocity during execution in situations involving two potential movements with different distances. In addition, we examined (2) whether planning of the movement velocity can differ depending on the presence of uncertainty in the cursor or the target. In the main conditions, the participants were required to start a reaching movement with two potential movement distances; in the two-cursor condition, two cursors were presented before the start of the trial, and in the two-target condition, two targets were presented. As a control condition, a distance condition corresponding to each main condition was also performed. In the control condition, the initial movement velocity varied linearly with distance. Then, we tested whether the initial movement velocity in situations with two potential movement distances would follow the averaging output of the corresponding control condition. The results revealed that while the initial movement velocity in the two-target condition was slower than the averaging output, that in the two-cursor condition approached the averaging output. These results suggest that the velocity profile of the goal-directed movement is not simply averaged in a situation where two potential targets exist, and that there is a difference in the planning policy of the initial movement depending on whether the known uncertainty is for the movement goal or the effector.

Published
2022
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12. Risk aversion in the adjustment of speed-accuracy tradeoff depending on time constraints

Author

Ryoji Onagawa, Masahiro Shinya, Keiji Ota, and Kazutoshi Kudo

Subjects
Medicine, Science
Abstract

Abstract Humans are often required to make decisions under time constraints and to adjust speed-accuracy tradeoff (SAT) based on time constraints. Previous studies have investigated how humans adjust SAT depending on the time discount rate of expected gain. Although the expected gain of actions can be determined by both gain and probability, only situations where gain decreases over time have been tested. Considering the effect of risk on decision-making, the difference in time discount factors may modulate the response strategies for SAT, since temporal changes in variance of possible outcomes differ when gain or probability decreases over time. Here, we investigated the response strategies for SAT under different time discount factors. Participants were required to select one of the two options with different initial values in situations where the expected gain of options declined over time by a linear decrease in gain or probability. Comparison of response strategies between conditions revealed that response times in the gain condition were longer than those in the probability condition, possibly due to risk-aversion. These findings indicate the existence of common rules underpinning sensorimotor and economic decision-making.

Published
2019
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13. Influence of Release Parameters on Pitch Location in Skilled Baseball Pitching

Author

Ayane Kusafuka, Hirofumi Kobayashi, Takeshi Miki, Masumi Kuwata, Kazutoshi Kudo, Kimitaka Nakazawa, and Shinji Wakao

Subjects
baseball, pitch location, release parameter, accuracy, simulation, Sports, GV557-1198.995
Abstract

This study explored the mechanical factors that determine accuracy of a baseball pitching. In particular, we focused on the mechanical parameters at ball release, referred to as release parameters. The aim was to understand which parameter has the most deterministic influence on pitch location by measuring the release parameters during actual pitching and developing a simulation that predicts the pitch location from given release parameters. By comparing the fluctuation of the simulated pitch location when varying each release parameter, it was found that the elevation pitching angle and speed significantly influenced the vertical pitch location, and the azimuth pitching angle significantly influenced the horizontal pitch location. Moreover, a regression model was obtained to predict the pitch location, and it became clear that the significant predictors for the vertical pitch location were the elevation pitching angle, the speed, and spin axis, and those for the horizontal pitch location were the azimuth pitching angle, the spin axis, and horizontal release point. Therefore, it was suggested that the parameter most affecting pitch location weas pitching angle. On the other hand, multiple regression analyses revealed that the relation between release parameters varied between pitchers. The result is expected to contribute to an understanding of the mechanisms underlying accurate ball control skill in baseball pitching.

Published
2020
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14. Transcranial Direct Current Stimulation Over Dorsolateral Prefrontal Cortex Modulates Risk-Attitude in Motor Decision-Making

Author

Keiji Ota, Masahiro Shinya, and Kazutoshi Kudo

Subjects
aim point, experience-based decision-making, inhibitory control, reward function, risk-taking behavior, non-invasive brain stimulation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Humans often face situations requiring a decision about where to throw an object or when to respond to a stimulus under risk. Several behavioral studies have shown that such motor decisions can be suboptimal, which results from a cognitive bias toward risk-seeking behavior. However, brain regions involved in risk-attitude of motor decision-making remain unclear. Here, we investigated the role of the dorsolateral prefrontal cortex (DLPFC) in risky motor decisions using transcranial direct current stimulation (tDCS). The experiment comprised a selective timing task requiring participants to make a continuous decision about the timing of their response under the risk of no rewards. The participants performed this task twice in a day: before and while receiving either anodal stimulation over the right DLPFC with cathodal stimulation over the left DLPFC (20 min, 2 mA), cathodal stimulation over the right DLPFC with anodal stimulation over the left DLPFC, or sham stimulation. In line with previous studies, their strategies before the stimulation were biased toward risk-seeking. During anodal stimulation over right DLPFC with cathodal stimulation over left DLPFC, participants showed a more conservative strategy to avoid the risk of no rewards. The additional experiment confirmed that tDCS did not affect the ability of timing control regarding the time intervals at which they aimed to respond. These results suggest a potential role for the DLPFC in modulating action selection in motor decision-making under risk.

Published
2019
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15. Accent Stabilizes 1:2 Sensorimotor Synchronization of Rhythmic Knee Flexion-Extension Movement in Upright Stance

Author

Takahide Etani, Akito Miura, Masahiro Okano, Masahiro Shinya, and Kazutoshi Kudo

Subjects
coordination dynamics, entrainment, evolution of music, metrical structure, rhythm, subdivision, Psychology, BF1-990
Abstract

Numerous studies have shown the importance of metrical structure on beat perception and sensorimotor synchronization (SMS), which indicates why metrical structure has evolved as a widespread musical element. In the current study, we aimed to investigate the effect of metrical structure with or without accented sounds and the alignment of accent with flexion or extension movements on the stability of 1:2 SMS in rhythmic knee flexion-extension movement in upright stance (flexing the knee once every two sounds). Fourteen participants completed 1:2 rhythmic knee flexion-extension movements with a metronome beat that accelerated from 2 to 8 Hz (the frequency of the movement was 1–4 Hz). Three sound-movement conditions were provided: (1) combining the flexion phase with loud (accented) sound and the extension phase with soft (non-accented) sound, (2) the reverse combination, and (3) combining both movements with loud sound. ANOVA results showed that metrical structure with accented sounds stabilizes 1:2 SMS in the range of 3.5–7.8 Hz in terms of timing accuracy, and flexing on the accented sound is more globally stable (resistant to phase transition) than flexing on the non-accented sound. Furthermore, our results showed that metrical structure with accented sounds induces larger movement amplitude in the range of 4.6–7.8 Hz than does that without accented sounds. The present study demonstrated that metrical structure with accented sounds stabilizes SMS and induces larger movement amplitude in rhythmic knee flexion-extension movement in upright stance than does SMS with sequences without accents. In addition, we demonstrated that coordinating flexion movement with accented sound is more globally stable than coordinating extension movement with accented sound. Thus, whereas previous studies have revealed that metrical structure enhances the timing accuracy of SMS, the current study revealed that metrical structure enhances the global stability of SMS.

Published
2019
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16. The Effect of Pairing Individuals With Different Social Skills on Interpersonal Motor Coordination

Author

Kae Mukai, Akito Miura, Kazutoshi Kudo, and Seijiro Tsutsui

Subjects
interpersonal coordination, bimanual coordination, joint action, role determination, autism-spectrum quotient, Psychology, BF1-990
Abstract

Previous studies have demonstrated that combining individuals with different social skills affects performance in rhythmic interpersonal motor coordination, with individuals with lower social skills, such as individuals with autism spectrum disorder or schizophrenia, being found to follow the actions of partners with higher social skills. In this study, we investigated whether this finding could be generalized among pairs of individuals without disability. To perform this, we applied an interpersonal motor coordination task that required participants to perform rhythmic movements featuring an interpersonal relative phase pattern of 90°. We did not assign the two roles (i.e., the preceding and following roles) to the participants, meaning they were forced to determine which roles to adopt by observing each other’s movements, without verbal communication. Individual social skills were measured using the autism-spectrum quotient (AQ). We found that pairs of participants with widely differing AQ scores performed better than did pairs with similar AQ scores. Most notably, the participants with higher AQ scores tended to precede their partners in the present task, which is the opposite result to that reported in previous studies. Our findings suggest that paring individuals without disability according to their social skills influences their interpersonal coordination performance in tasks wherein they must determine the preceding and following roles themselves.

Published
2018
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17. Asymmetric Adaptability to Temporal Constraints Among Coordination Patterns Differentiated at Early Stages of Learning in Juggling

Author

Kota Yamamoto, Masahiro Shinya, and Kazutoshi Kudo

Subjects
juggling, adaptability, intrinsic patterns, sensorimotor synchronization, individual differences, motor learning, Psychology, BF1-990
Abstract

In this study, we examined the degree of adaptability to new constraints after learning of a fundamental skill in juggling. Adaptation of sensorimotor synchronization with the various constraints is important for expertise. However, this adaptability may not be equivalent between coordination patterns which learners acquired in the previous learning process. In other words, there may be “asymmetric” adaptability among intrinsic patterns. Then, we examined the influence of intrinsic patterns on the adaptation of sensorimotor synchronization according to various temporal constraints. To set the adaptation task, experiment 1 was designed to examine the relationship between tempo and coordination pattern for expert jugglers. Based on experiment 1, juggling in accordance with the tempo change was performed as adaption task in experiment 2, and we compared the performances of the jugglers from the viewpoint of the intrinsic pattern. In experiment 1, participants performed juggling by adjusting catch timing to beep timing in ten conditions with the interval from 260 to 620 ms in steps of 40 ms. Results of experiment 1 presented that when the juggling tempo is fast, the coordination pattern with “rhythmic” frequency characteristics appeared. By contrast, when the tempo is slow, the coordination pattern with “discrete” frequency characteristics appeared. That is, jugglers should switch their coordination patterns when performing under various tempo conditions. In experiment 2, we compared the adaptability to perform juggling under temporal constraints among intermediate jugglers who have different intrinsic coordination patterns acquired through a previous learning process. The adaptation task required participants to adjust their catch timing to a gradually changing tempo. Participants performed juggling under two conditions: gradually ascending and descending tempo ranging from 300 to 600 ms. The results of experiment. 2 showed that participants who had a discrete pattern showed a significantly better adaptation than participants who had a rhythmic pattern. Furthermore, this result of adaptation was not related to juggling experience. This suggests that an intrinsic pattern characterized by different frequency characteristics has the different adaptability to sensorimotor synchronization tasks. Collectively, the degree of adaptability was dependent on the pattern acquired in the early stages of learning.

Published
2018
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18. Differences in trunk rotation during baseball batting between skilled players and unskilled novices

Author

Hiroki Nakata, Akito Miura, Michiko Yoshie, Takatoshi Higuchi, and Kazutoshi Kudo

Subjects
hitting, swing, shoulder, hip, kinematics, biomechanics, Sports medicine, RC1200-1245, Physiology, QP1-981
Abstract

We investigated differences in trunk rotation patterns during baseball batting in eight skilled (collegiate level) players and nine unskilled novices using high-speed video cameras. The maximum angle during the backswing, angle at bat-ball impact, and angular displacement during the forward swing were analyzed for data on upper torso, pelvis, and torso-pelvis interaction (trunk twist) angles. We also noted movement variability in these angles over 10 trials, which was calculated as the standard deviation. The timing of the maximum angle during the backswing and variability was also analyzed. Statistical analysis revealed that angular displacements in the upper torso, pelvis, and torso-pelvis interaction were significantly larger in skilled players than in unskilled novices (p < 0.001, p < 0.001, and p < 0.05, respectively). The timing of the maximum pelvis angle during the backswing was significantly later in skilled players than in unskilled novices (p < 0.05). Movement variability in angular displacement during the forward swing and timing during the backswing were significantly greater in unskilled novices than skilled players. Although many previous studies reported the importance of angular velocity in trunk rotation during baseball batting, our results indicate that angular displacement and movement variability during trunk rotation are also key components for understanding the proficiency of skilled baseball players and unskilled novices.

Published
2014
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19. Preparation and control of quick and fast movements: Neurophysiological and dynamical perspectives

Author

Kazutoshi Kudo, Masaya Hirashima, and Akito Miura

Subjects
human, quick and fast movements, brain activity, rhythmic motor coordination, dynamics, dynamical systems, Sports medicine, RC1200-1245, Physiology, QP1-981
Abstract

Quickness of response and movement speed are required for achieving athletic success in a variety of sports, and are often lost in various movement disorders. Because cognitive processes such as anticipation, attention, and planning are required for preparation of a quick motor response, we first introduce recent neurophysiological studies that have revealed brain activities underlying the preparation for movement, with some neurophysiological applications to improve motor quickness. Moreover, recent developments in the dynamical analysis of complex movements allow us to understand precise mechanisms and principles underlying fast multi-joint and multi-limb movements. We introduce our current theories on the mathematical analysis of complex movement coordination called induced acceleration analysis. We propose that movements are subject to both instantaneous and cumulative effects, which combine to integrate the torque and acceleratory forces on multiple joints. We also discuss evidence that movement rate has important effects on the coordination patterns, acting as a control parameter that determines organization of movement patterns. These findings underscore the necessity of conducting research on the science of movement that is highly interdisciplinary, including the fields of physiology, biomechanics, neurosciences, and behavioral sciences not only for the enhancement of sports performance, but also for the facilitation of motor recovery and rehabilitation from neurological damage.

Published
2014
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20. Mutual stabilization of rhythmic vocalization and whole-body movement.

Author

Kohei Miyata and Kazutoshi Kudo

Subjects
Medicine, Science
Abstract

The current study investigated the rhythmic coordination between vocalization and whole-body movement. Previous studies have reported that spatiotemporal stability in rhythmic movement increases when coordinated with a rhythmic auditory stimulus or other effector in a stable coordination pattern. Therefore, the present study conducted two experiments to investigate (1) whether there is a stable coordination pattern between vocalization and whole-body movement and (2) whether a stable coordination pattern reduces variability in whole-body movement and vocalization. In Experiment 1, two coordination patterns between vocalizations and whole-body movement (hip, knee, and ankle joint flexion-on-the-voice vs. joint extension-on-the-voice) in a standing posture were explored at movement frequencies of 80, 130, and 180 beats per minute. At higher movement frequencies, the phase angle in the extension-on-the-voice condition deviated from the intended phase angle. However, the angle of the flexion-on-the-voice was maintained even when movement frequency increased. These results suggest that there was a stable coordination pattern in the flexion-on-the-voice condition. In Experiment 2, variability in whole-body movement and voice-onset intervals was compared between two conditions: one related to tasks performed in the flexion-on-the-voice coordination (coordination condition) that was a stable coordination pattern, and the other related to tasks performed independently (control condition). The results showed that variability in whole-body movement and voice-onset intervals was smaller in the coordination condition than in the control condition. Overall, the present study revealed mutual stabilization between rhythmic vocalization and whole-body movement via coordination within a stable pattern, suggesting that coupled action systems can act as a single functional unit or coordinative structure.

Published
2014
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24. A Review of Psychological and Neuroscientific Research on Musical Groove (2006−2022)

Author

Takahide Etani, Akito Miura, Satoshi Kawase, Shinya Fujii, Peter E. Keller, Peter Vuust, and Kazutoshi Kudo

Abstract

When we listen to music, we often feel the urge to tap our fingers, stomp our feet, or move our bodies. This pleasurable sensation of wanting to move one's body with the music has been termed "groove." Research on groove was initially conducted mainly in the fields of musicology, ethnomusicology and philosophy, and in the 2000s, researchers within the field of empirical psychology began to investigate the concept of groove and the characteristics of music associated with it. In the 2010s, studies of the relationship between groove and underlying brain structures and functional processes emerged and the topic has recently become a prominent theme in empirical research on musical behavior. This review aims to provide a comprehensive characterization of groove and to highlight future directions for related empirical research. In doing so, we focus on two topics that have the potential to provide new insights into perception and action from the perspectives of psychology and neuroscience: (1) sensorimotor interactions and (2) the role of the motor system in predictive processing. To this end, we survey the literature on groove conducted in the fields of psychology and neuroscience from 2006 to 2022 in five sections: (1) the concept of groove, (2) musical features related to groove, (3) responses to groove including body movement and neurophysiological activity, (4) characteristics of listeners that influence the experience of groove, and (5) the effect of culture and environment on groove perception. Through the review, we propose four themes as promising future directions for empirical study: (1) social aspects of groove, (2) the effect of microtiming and syncopation on groove, (3) the mechanisms by which groove is evoked, and (4) clinical implications and applications of groove. Taken together, these research efforts may ultimately lead to an increased understanding of human sociality, evolution, and the brain and mind.

Published
2023
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25. Optimal computation regarding risk attitudes in motor decision-making under risk

Author

Ryoji Onagawa, Kazutoshi Kudo, and Katsumi Watanabe

Abstract

The process of motor planning involves considering the movement variability and value of the motor outcome. Previous studies have shown that individuals tend to exhibit a consistent risk-seeking bias when performing a temporal aiming task, which involves aiming to respond as closely as possible to a reference time without any delay. However, it is unclear whether this bias is caused by a subjective attempt to take risks or by overestimating motor accuracy. Here, we examined changes in participants’ aiming points after they were instructed regarding subjective risk-attitudes. The results from four different task settings in Experiments 1, 2a, 2b, and 2c, consistently showed a good correspondence between participants’ objective and subjective risk-attitudes. However, in a free-choice situation where participants were instructed to maximize their scores, a robust risk-seeking bias was identified. Computational models suggested that the risk-seeking bias in the free-choice situation was linked to the Maximax strategy. Furthermore, Experiment 3 showed that the participants’ strategy selection in the free-choice situation was similar to the behavior when they were instructed to perform the Maximax strategy. Overall, our findings suggest that in motor planning under risk, humans process near-optimal computation regarding risk attitudes, but their strategic preferences can lead to risk-seeking biases.

Published
2023
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27. Specific Brain Reorganization Underlying Superior Upper Limb Motor Function After Spinal Cord Injury: A Multimodal MRI Study

Author

Tomoya Nakanishi, Kimitaka Nakazawa, Kazutoshi Kudo, Hirofumi Kobayashi, and Kento Nakagawa

Subjects
Adult, Male, Brain reorganization, Superior parietal lobule, Motor function, 050105 experimental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Parietal Lobe, medicine, Humans, 0501 psychology and cognitive sciences, Gray Matter, Spinal cord injury, Spinal Cord Injuries, Aged, Brain Mapping, Neuronal Plasticity, Hand Strength, medicine.diagnostic_test, business.industry, 05 social sciences, Motor Cortex, Magnetic resonance imaging, General Medicine, Anatomy, Middle Aged, medicine.disease, Magnetic Resonance Imaging, medicine.anatomical_structure, Upper limb, Female, Primary motor cortex, Grip force, business, 030217 neurology & neurosurgery, Muscle Contraction
Abstract

Background We recently discovered that individuals with complete spinal cord injury (SCI) have a higher grip force control ability in their intact upper limbs than able-bodied subjects. However, the neural basis for this phenomenon is unknown. Objective This study aimed to investigate the neural basis of the higher grip force control in the brains of individuals with SCI using multimodal magnetic resonance imaging (MRI). Methods Eight SCI subjects and 10 able-bodied subjects performed hand grip force control tasks at 10%, 20%, and 30% of their maximal voluntary contraction during functional MRI (fMRI). Resting-state fMRI and T1-weighted structural images were obtained to investigate changes in brain networks and structures after SCI. Results SCI subjects showed higher grip force steadiness than able-bodied subjects ( P < .05, corrected), smaller activation in the primary motor cortex ( P < .05, corrected), and deactivation of the visual cortex ( P < .001, uncorrected). Furthermore, SCI subjects had stronger functional connectivity between the superior parietal lobule and the left primary motor cortex ( P < .001, uncorrected), as well as larger gray matter volume in the bilateral superior parietal lobule ( P < .001, uncorrected). Conclusions The structural and functional reorganization observed in the superior parietal lobule of SCI subjects may represent the neural basis underlying the observed higher grip force control, and is likely responsible for the smaller activation in the primary motor cortex observed in these individuals. These findings could have applications in the fields of neurorehabilitation for improvement of intact limb functions after SCI.

Published
2021
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28. Systematic bias in representation of reaction time distribution

Author

Ryoji Onagawa, Kazutoshi Kudo, and Katsumi Watanabe

Abstract

The correct recognition of one's abilities is essential for appropriate decision-making, particularly in motor control, in which it is necessary to make decisions that maximize reward rates by considering one’s motor performance. Here, we examined the differences between individuals’ estimated and actual performances during a simple reaction task. Specifically, we focused on 1) whether the distribution of reaction times (RTs) estimated by the participants matched the actual one and 2) whether the estimations changed flexibly in response to changes in RT feedback. Here we show the internal RT representations, inferred by fitting the data with an ex-Gaussian distribution, are more widely distributed than actual RTs. We also find that internal representations are updated according to changes in RT feedback (i.e., immediate prior experience).

Published
2022
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30. Changes in error-correction behavior according to visuomotor maps in goal-directed projection tasks

Author

Ayane Kusafuka, Ryoji Onagawa, Arata Kimura, and Kazutoshi Kudo

Subjects
Physiology, General Neuroscience, Movement, Visual Perception, Humans, Proprioception, Adaptation, Physiological, Goals, Psychomotor Performance
Abstract

Humans can move objects to target positions out of their reach with certain accuracy by throwing or hitting them with tools. However, the outcome-the final object position-after the same movement varies due to various internal and external factors. Therefore, to improve outcome accuracy, humans correct their movements in the following trial as necessary by estimating the relationship between movement and visual outcome (visuomotor map). In the present study, we compared participants' error-correction behaviors to visual errors under three conditions, wherein the relationship between joystick movement direction and cursor projection direction on the monitor covertly differed. This allowed us to examine whether the error-correction behavior changed depending on the visuomotor map. Moreover, to determine whether participants maintain the visuomotor map regardless of the visual error size (cursor projection) and proprioceptive errors (joystick movement), we for the first time focused on whether temporary visual errors deviating from the conventional relationship between joystick movement direction and cursor projection direction (i.e., visual perturbation) are ignored. The visual information was occasionally perturbed in two ways to create a situation wherein the visual error was larger or smaller than the proprioceptive error. We found that participants changed their error-correction behaviors according to the conditions and could ignore visual perturbations. This suggests that humans can be implicitly aware of differences in visuomotor maps and adapt accordingly to visual errors.

Published
2022

35. Auditory interaction between runners: Does footstep sound affect step frequency of neighboring runners?

Author

Hiroaki Furukawa, Kazutoshi Kudo, Kota Kubo, Jingwei Ding, and Atsushi Saito

Subjects
Multidisciplinary
Abstract

This study aimed to investigate the effect of footsteps of a neighboring runner (NR) on the main runner’s step frequency (SF), heart rate (HR), and rating of perceived exertion (RPE). The participants were male long-distance runners belonging to a university track and field team. Two experiments were conducted in which the main runner (participant) and NR (examiner) ran with the same running speed on two adjacent treadmills separated by a thin wall. The participants were instructed that the experimental purpose was to investigate the HR when running with others and running alone. In Experiment 1, NR performed three trials of changing the footstep tempo in 5 bpm (beat per minute) faster (+5bpmFS), 5 bpm slower (-5bpmFS), or no footsteps (NF) conditions. The results showed that the footstep condition affected the variability of the SF but not the mean SF. Next, Experiment 2 was conducted by increasing the footstep tempo condition. NR performed seven trials of changing the footstep tempo by ±3 bpm, ±5 bpm, ±10 bpm, or no footstep. The results showed that the footstep condition affected the mean SF and the SF decreased at -10bpmFS compared to NF. There were no differences in the HR and RPE between conditions. These results indicated that the footsteps of NR could influence the SF, although it was unclear whether footsteps were involved in the synchronization between runners. Overall, our findings emphasize the environmental factors that influence running behavior, including the NR’s footsteps.

Published
2021

36. Coordination dynamics of thoracic and abdominal movements during voluntary breathing

Author

Mimu Higashino, Kohei Miyata, and Kazutoshi Kudo

Subjects
Multidisciplinary, Respiration, Abdomen, Humans, Singing
Abstract

Thoracic and abdominal movements can be tightly coupled during voluntary breathing, such as when singing and playing wind instruments. The present study investigated the coordination of thoracic and abdominal movements during voluntary breathing using a dynamical systems approach. We examined whether there are two stable coordination patterns, and if the coordination pattern would abruptly change when the breathing frequency increased, which is known as phase transition. The participants inhaled and exhaled repeatedly at 7.5, 15, 30, 60, or 120 breaths per minute. At the beginning and end of the experiment, the participants performed breathing at their preferred frequency. As a result, the coordination pattern at the lower and preferred frequencies exhibited an in-phase pattern. When breathing frequency increased, participants showed deviated coordination patterns from the in-phase pattern to either a thoracic-leading pattern, an abdominal-leading pattern, or an anti-phase pattern depending on the individual. These deviations occurred gradually; thus, phase transition was not observed. Our findings suggest that thoracic and abdominal movements are tightly coupled at lower frequencies, but their patterns vary depending on the breathing frequency and individuals. Therefore, the present study suggests the importance of viewing breath control in terms of coordination of thoracic and abdominal movements.

Published
2021

37. Underlying structure in the dynamics of chase and escape interactions

Author

Kazushi Tsutsui, Kazutoshi Kudo, and Masahiro Shinya

Subjects
0301 basic medicine, Cognitive science, Structure (mathematical logic), Multidisciplinary, Computer science, Decision, lcsh:R, lcsh:Medicine, 030229 sport sciences, Animal behaviour, Outcome (game theory), Article, Task (project management), 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Dynamics (music), Human behaviour, Perception, lcsh:Q, Robustness (economics), lcsh:Science
Abstract

Chase and escape behaviors are important skills in many sports. Previous studies have described the behaviors of the attacker (escaper) and defender (chaser) by focusing on their positional relationship and have presented several key parameters that affect the outcome (successful attack or defense). However, it remains unclear how each individual agent moves, and how the outcome is determined in this type of interaction. To address these questions, we constructed a chase and escape task in a virtual space that allowed us to manipulate agents’ kinematic parameters. We identified the basic strategies of each agent and their robustness to changes in their parameters. Moreover, we identified the determinants of the outcome and a geometrical explanation of their importance. Our results revealed the underlying structure of a simplified human chase and escape interaction and provided the insight that, although each agent apparently moves freely, their strategies in two-agent interactions are in fact rather constrained.

Published
2019
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38. Hybrid dynamics in a paired rhythmic synchronization–continuation task

Author

Masahiro Okano, Kazutoshi Kudo, Wataru Kurebayashi, and Masahiro Shinya

Subjects
Statistics and Probability, Matching (statistics), Oscillation, Computer science, Movement (music), Condensed Matter Physics, 01 natural sciences, Synchronization, 010305 fluids & plasmas, Task (project management), Rhythm, Dynamics (music), 0103 physical sciences, Statistical physics, 010306 general physics
Abstract

Synchronization is a fundamental component of a musical ensemble. Recent advancements in behavioral time series analyses have produced increasing evidence of global coordination, matching in statistical structures of fluctuation in long timescales, separate from synchronization as local coordination. Previous studies have demonstrated that strong interactions in local timescales and interactions in multiple scales with weak local interactions can be sources of global coordination. However, knowledge of global coordination in human rhythmic movement is still limited. The present study investigated fluctuation and coordination dynamics for inter-tap intervals (ITI) in a paired rhythmic tapping task, imitating duo performances, from local to global timescales. In addition, we examined parameter dynamics for a coupled oscillator model to test whether the model could replicate the task dynamics and integrate sources of global coordination. Measured ITI series demonstrated globally coordinated hybrid dynamics: persistent fluctuation and positively correlated coordination in global scales and anti-persistent fluctuation and negatively correlated coordination in local scales. Positive lag ± 1 and negative lag 0 local cross-correlation suggested that the global coordination was emerged from local mutual timing adjustment processes. The coupled oscillator model for the task replicated these dynamics. Moreover, the model could generate both types of global coordination, which emerged from strong and weak local interactions. These findings can help to improve knowledge of interpersonal coordination in musical ensembles, allowing a better understanding, for example, of the basis of temporal harmony and individual differences in the coordination of each pair and their source.

Published
2019
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39. Flexible prediction of opponent motion with internal representation in interception behavior

Author

Kazuya Takeda, Kazushi Tsutsui, Kazutoshi Kudo, and Keisuke Fujii

Subjects
Interception, General Computer Science, Artificial neural network, Computer science, Complex system, Extrapolation, Motion Perception, Brain, Pursuer, Internal representation, Motion (physics), Navigation, Nonlinear system, Motion, Control theory, Original Article, Pursuit, Neural Networks, Computer, Representation (mathematics), Prediction, Biotechnology
Abstract

Skilled interception behavior often relies on accurate predictions of external objects because of a large delay in our sensorimotor systems. To deal with the sensorimotor delay, the brain predicts future states of the target based on the current state available, but it is still debated whether internal representations acquired from prior experience are used as well. Here we estimated the predictive manner by analyzing the response behavior of a pursuer to a sudden directional change of the evasive target, providing strong evidence that prediction of target motion by the pursuer was incompatible with a linear extrapolation based solely on the current state of the target. Moreover, using neural network models, we validated that nonlinear extrapolation as estimated was computationally feasible and useful even against unknown opponents. These results support the use of internal representations in predicting target motion, suggesting the usefulness and versatility of predicting external object motion through internal representations. Supplementary Information The online version contains supplementary material available at 10.1007/s00422-021-00891-9.

Published
2021

40. Sensorimotor strategy selection under time constraints in the presence of two motor targets with different values

Author

Kazutoshi Kudo and Ryoji Onagawa

Subjects
Adult, Male, Time Factors, Flexibility (anatomy), Computer science, Movement, media_common.quotation_subject, Science, Decision Making, Decision, Choice Behavior, Article, Adaptability, Young Adult, Spatio-Temporal Analysis, Motor control, Control theory, Human behaviour, Reaction Time, medicine, Time constraint, Humans, media_common, Multidisciplinary, Movement (music), Cognitive bias, medicine.anatomical_structure, Trajectory, Medicine, Female, Value (mathematics), Psychomotor Performance
Abstract

Goal-directed movements often require choosing an option from multiple potential goals under time constraints. However, there are limited studies on how humans change their time spent on decision-making and movement patterns according to time constraints. Here, we examined how sensorimotor strategies are selected under time constraints when the target values are uncertain. In the double-target condition, the values were uncertain until the movement onset and presented immediately afterwards. The behavior in this condition was compared to the single-target condition, in relation to time constraints and target-separation-angles. The results showed that the participants frequently used the choice-reaction even under tight time constraints, and their performance was consistently lower than that in the single-target condition. Additionally, in the double-target condition, differences in the movement trajectory depending on the time constraint and target-separation angle were confirmed. Specifically, the longer the time constraint, the higher the frequency of the intermediate behavior (to initiate movement toward the intermediate direction of two targets) or the change-of-mind behavior (to change the aiming target during movement). Furthermore, the smaller the target-separation angle, the higher the frequency of intermediate behavior, but the frequency of change-of-mind was not affected by the target-separation angle. These results suggest that the participants initiated the movement at an incomplete value judgment stage in some trials. Furthermore, they seemed to select a strategy to utilize the information obtained during the movement, taking into account the time constraints and target-separation angle. Our results show a consistent cognitive bias in choosing a higher value when multiple alternatives have different values. Additionally, we also suggest flexibility and adaptability in the movement patterns in response to time constraints.

Published
2021
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41. Control of Accuracy during Movements of High Speed: Implications from Baseball Pitching

Author

Kimitaka Nakazawa, Kazutoshi Kudo, and Ayane Kusafuka

Subjects
Reproducibility, Computer science, Movement, Cognitive Neuroscience, Control (management), Biophysics, Reproducibility of Results, Experimental and Cognitive Psychology, Horizontal pitch, Co variation, Baseball, Biomechanical Phenomena, Task (project management), Control theory, Humans, Orthopedics and Sports Medicine, Throwing
Abstract

Despite the well-known tradeoff between speed and accuracy, skilled people often demonstrate the ability to maintain high accuracy during fast movements. We focused on two strategies to improve accuracy, thereby increasing the reproducibility of individual parameters (certain parameters are maintained in low variability) and coordinating covariation among parameters (different parameters compensate each other's variability). The objective of this study was to determine whether coordinated covariation among release parameters is used for high accuracy by skilled baseball pitchers. A model was employed to simulate pitch location after eliminating the coordinated covariation by randomly reshuffling the release parameters, and the variability of simulated and measured pitch locations were compared. The results showed that there was no significant coordinated covariation for any of the release parameters for either the vertical or horizontal pitch location supports strategy of increasing the reproducibility of individual parameter. In addition, for the vertical pitch location, because there was coordinated covariation between the release angle and speed in slow pitching, it was suggested that, the higher speed the task requires, the more important the reproducibility of individual parameter becomes.

Published
2021
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42. Vocal interaction during rhythmic joint action stabilizes interpersonal coordination and individual movement timing

Author

Kazutoshi Kudo, Kohei Miyata, Manuel Varlet, Peter E. Keller, and Akito Miura

Subjects
Adult, Male, Movement, Experimental and Cognitive Psychology, Interpersonal communication, Metronome, 050105 experimental psychology, law.invention, Young Adult, Rhythm, Developmental Neuroscience, law, Humans, Speech, 0501 psychology and cognitive sciences, Interpersonal Relations, Motion perception, General Psychology, Modality (human–computer interaction), Movement (music), Communication, 05 social sciences, Female, Syllable, Singing, Psychology, Music, Psychomotor Performance, Cognitive psychology
Abstract

Because work songs are ubiquitous around the world, singing while working and performing a task with a coactor is presumably beneficial for both joint action and individual task performance. The present study investigated the impact of interpersonal rhythmic vocal interaction on interpersonal phase relations and on individual motor timing performance, which was evaluated by a synchronization-continuation paradigm requiring whole-body movement with or without visual contact. Participants repeated the syllable "tah" or remained silent in a manipulation of vocal interaction, and they were oriented toward or away from their partner to manipulate visual interaction. Results indicated the occurrence of spontaneous interpersonal coordination, evidenced by interpersonal phase relations that were closer to 0° and less variable when participants interacted both visually and vocally. At the individual level, visual interaction increased the variability of synchronization with the metronome but did not modulate the variability of continuation movements, whereas vocal interaction helped to decrease the variability of synchronization and continuation movements. Visual interaction therefore degraded individual movement timing while vocal interaction improved it. Communication via the auditory modality may play a compensatory role in naturalistic contexts where visual contact has potential destabilizing effects. (PsycInfo Database Record (c) 2020 APA, all rights reserved).

Published
2020

43. Influence of Release Parameters on Pitch Location in Skilled Baseball Pitching

Author

Masumi Kuwata, Takeshi Miki, Kimitaka Nakazawa, Shinji Wakao, Kazutoshi Kudo, Ayane Kusafuka, and Hirofumi Kobayashi

Subjects
lcsh:Sports, Ball release, baseball, accuracy, Release point, Acoustics, pitch location, Horizontal pitch, Regression analysis, Spin axis, release parameter, simulation, humanities, Azimuth, lcsh:GV557-1198.995, Computer Science::Sound, Sports and Active Living, Linear regression, otorhinolaryngologic diseases, psychological phenomena and processes, Mathematics, Original Research
Abstract

This study explored the mechanical factors that determine accuracy of a baseball pitching. In particular, we focused on the mechanical parameters at ball release, referred to as release parameters. The aim was to understand which parameter has the most deterministic influence on pitch location by measuring the release parameters during actual pitching and developing a simulation that predicts the pitch location from given release parameters. By comparing the fluctuation of the simulated pitch location when varying each release parameter, it was found that the elevation pitching angle and speed significantly influenced the vertical pitch location, and the azimuth pitching angle significantly influenced the horizontal pitch location. Moreover, a regression model was obtained to predict the pitch location, and it became clear that the significant predictors for the vertical pitch location were the elevation pitching angle, the speed, and spin axis, and those for the horizontal pitch location were the azimuth pitching angle, the spin axis, and horizontal release point. Therefore, it was suggested that the parameter most affecting pitch location weas pitching angle. On the other hand, multiple regression analyses revealed that the relation between release parameters varied between pitchers. The result is expected to contribute to an understanding of the mechanisms underlying accurate ball control skill in baseball pitching.

Published
2020

44. The influence of attractor stability of intrinsic coordination patterns on the adaptation to new constraints

Author

Masahiro Shinya, Kazutoshi Kudo, and Kota Yamamoto

Subjects
Male, Adolescent, Computer science, Stability (learning theory), lcsh:Medicine, Article, 050105 experimental psychology, Task (project management), Young Adult, 03 medical and health sciences, 0302 clinical medicine, Human behaviour, Dynamical systems, Attractor, Humans, 0501 psychology and cognitive sciences, lcsh:Science, Adaptation (computer science), Multidisciplinary, lcsh:R, 05 social sciences, Adaptation, Physiological, Motor Skills, Path (graph theory), Female, lcsh:Q, Psychomotor Performance, 030217 neurology & neurosurgery, Cognitive psychology
Abstract

In most human movement tasks, the same goal can be achieved by a diversity of coordination patterns. For instance, when learning to juggle, individuals adopt their own unique coordination patterns in the early stages of acquiring the fundamental skills of juggling. These individual differences in the learning paths lead to differences in adaptability to new constraints. However, the reason for these differences in adaptability is still unknown. To address this problem, we quantified these differences in terms of attractor stability of the coordination patterns of expert jugglers using Recurrence Quantification Analysis. Furthermore, we quantified the attractor stability of intermediate jugglers and examined adaptability in a sensorimotor synchronization task. We found differences in attractor stability among coordination patterns of expert jugglers, as well as a difference in attractor stability between intrinsic coordination patterns of intermediate jugglers. Whereas, almost no significant direct correlation between attractor stability and adaptability of intermediate jugglers was found, suggesting a difference in both attractor stability and adaptability between intrinsic coordination patterns such that the difference in attractor stability might affect adaptability to new constraints. We submit that the learning path selected by each learner in the early stages of learning plays an important role in the subsequent development of expertise.

Published
2020
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46. Interpersonal visual interaction induces local and global stabilisation of rhythmic coordination

Author

Kohei Miyata, Peter E. Keller, Akito Miura, Manuel Varlet, and Kazutoshi Kudo

Subjects
Male, Periodicity, Adolescent, Movement, media_common.quotation_subject, Posture, Anchoring, Fixation, Ocular, Interpersonal communication, Metronome, 050105 experimental psychology, law.invention, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Rhythm, law, Perception, Humans, Interpersonal Relations, 0501 psychology and cognitive sciences, media_common, Movement (music), General Neuroscience, 05 social sciences, Degree (music), Trajectory, Female, Psychology, Psychomotor Performance, 030217 neurology & neurosurgery, Cognitive psychology
Abstract

Perceptual coupling between people can lead to the spontaneous synchronisation of their rhythmic movements. In the current study, we hypothesised that the sight of a co-actor generates anchoring (local stabilisation around specific spatiotemporal points within movement cycles), and that such anchoring supports the occurrence and stability of spontaneous interpersonal synchronisation (global stabilisation across cycles). To test these hypotheses, we re-examined previously published data from a study where participants were required to perform auditory-motor coordination of whole-body movements with versus without visual contact. Paired participants performed two kinds of coordination task - either knee flexion or extension repeatedly with auditory metronome beats (Flexion-on-the-beat and Extension-on-the-beat conditions) while standing face-to-face or back-to-back to manipulate visual interaction. The analysis of individual movement trajectories showed that visual interaction led to decreased variability along the entire trajectory, except the maximum extension position. The results also indicated that the strength of this anchoring was correlated with the degree to which the variability of interpersonal phase relations decreased with visual coupling, suggesting that local stabilisation supported global interpersonal stabilisation. Therefore, the sight of a co-actor generates anchoring effects that may play a crucial role in the stabilisation of spontaneous interpersonal synchronisation.

Published
2018
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