幼儿期双手协调能力的发展。

IF 9.4 1区 心理学 Q1 PSYCHOLOGY, DEVELOPMENTAL Monographs of the Society for Research in Child Development Pub Date : 2019-06-01 DOI:10.1111/mono.12405
Karen Brakke, Matheus M Pacheco
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The HKB model describes the self-organizing relationship between a coordinated movement pattern and the underlying parameters that support that pattern, and can also be used to conceptualize and test predictions of how changes in coordination occur. Much of the work investigating bimanual control under the HKB model has been conducted with adults who are acting over time periods of a few seconds to a few days. However, there are also changes in bimanual control that occur over far longer time spans, including those that emerge across childhood and into adolescence (e.g., Wolff, Kotwica, & Obregon, 1998). Using the formal HKB model as a starting point, we analyzed the ontogenetic emergence of a particular pattern of bimanual coordination, specifically, the anti-phase (or inverse oscillatory motion) coordination pattern between the upper limbs in toddlers who are performing a drumming task (see Brakke, Fragaszy, Simpson, Hoy, & Cummins-Sebree, 2007). This study represents a first attempt to document the emergence of the anti-phase pattern by examining both microgenetic and ontogenetic patterns of change in bimanual activity. We report the results of a longitudinal study in which seven toddlers engaged monthly in a bimanual drumming task from 15 to 27 months of age. On some trials, an adult modeled in-phase or anti-phase action; on other trials, no action was modeled. We documented the motion dynamics accompanying the emergence of the anti-phase bimanual coordination pattern by assessing bout-to-bout and month-to-month changes in several movement parameters-oscillation frequency, amplitude ratio of the drumsticks, initial position of the limbs to begin bouts, and primary arm-joint involvement. These parameters provided a good starting point to understand how toddlers explore movement space in order to achieve greater stability in performing the anti-phase coordination pattern. Trained research assistants used Motus software to isolate each bout of drumming and to digitize the movement of the two drumstick heads relative to the stationary drum surface. Because we were primarily interested in the vertical movement of the drumsticks that were held in the child's hands, we relied on two-dimensional analyses and analyzed data that were tracked by a single camera. We used linear mixed effects analyses as well as qualitative analyses for each participant to help elucidate the emergence and stability of the child's use of anti-phase coordination. This approach facilitated descriptions of individual pathways of behavior that are possible only with longitudinal designs such as the one used here. Our analyses indicated that toddlers who were learning to produce anti-phase motion in this context employed a variety of strategies to adjust the topography of their action. Specifically, as we hypothesized, toddlers differentially exploited oscillation frequency and movement amplitude to support change to anti-phase action, which briefly appeared as early as 15 months of age but did not become relatively stable until approximately 20 months of age. We found evidence that many toddlers reduced oscillation frequency before transitioning from in-phase to anti-phase drumming. Toddlers also used different means of momentarily modulating the amplitude ratio between limbs to allow a change in coordination from in-phase to anti-phase. Nevertheless, these oscillation-frequency and amplitude-ratio strategies were interspersed by periods of nonsystematic exploration both within and between bouts of practice. We also observed that toddlers sometimes changed their initial limb positions to start a bout or altered which primary arm joints they used when drumming. When they enacted these changes, the toddlers increased performance of the anti-phase coordination pattern in their drumming. However, we found no evidence of systematic exploration with these changes in limb position and joint employment, suggesting that the toddlers did not intentionally employ these strategies to improve their performance on the task. Although bimanual drumming represents a highly specific behavior, our examination of the mechanisms underlying emergence of the anti-phase coordination pattern in this context is one of the missing pieces needed to understand the development of motor coordination more broadly. Our results document that the anti-phase coordination pattern emerges and stabilizes through modulation of the dynamics of the movement and change of the attractor landscape (i.e., the motor repertoire). Consistent with literatures in motor control, motor learning, and skill development, our results suggest that the acquisition of movements in ontogenetic development can be thought of as exploration of the emergent dynamics of perception and action. This conclusion is commensurate with a systemic approach to motor development in which functional dynamics, rather than specific structures, provide the basis for understanding developmental changes in skill. Based on our results as well as the relevant previous empirical literature, we present a conceptual model that incorporates developmental dynamics into the HKB model. 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We documented the motion dynamics accompanying the emergence of the anti-phase bimanual coordination pattern by assessing bout-to-bout and month-to-month changes in several movement parameters-oscillation frequency, amplitude ratio of the drumsticks, initial position of the limbs to begin bouts, and primary arm-joint involvement. These parameters provided a good starting point to understand how toddlers explore movement space in order to achieve greater stability in performing the anti-phase coordination pattern. Trained research assistants used Motus software to isolate each bout of drumming and to digitize the movement of the two drumstick heads relative to the stationary drum surface. Because we were primarily interested in the vertical movement of the drumsticks that were held in the child's hands, we relied on two-dimensional analyses and analyzed data that were tracked by a single camera. 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引用次数: 13

摘要

作为人类活动和文化成就的标志之一,双手协调一直是多个研究领域的研究重点。自从Cohen(1971)和Kelso及其同事(Haken, Kelso, & Bunz, 1985;Kelso, Southard, & Goodman, 1979),双手动作作为一种模型系统,用于研究协调动作序列的皮质、知觉、认知和情境基础的作用(例如,Bingham, 2004;Oliveira & Ivry, 2008)。这项工作主要是由一般的动力系统理论和正式的Haken-Kelso-Bunz (HKB;尤其是1985年的双手协调模型。HKB模型描述了协调运动模式和支持该模式的底层参数之间的自组织关系,也可用于概念化和测试协调变化如何发生的预测。在HKB模式下研究双手控制的大部分工作都是在几秒钟到几天的时间内对成年人进行的。然而,也有在更长的时间跨度内发生的双手控制的变化,包括那些从童年到青春期出现的变化(例如,Wolff, Kotwica, & Obregon, 1998)。使用正式的HKB模型作为起点,我们分析了一种特殊的双手协调模式的个体发生,特别是在执行击鼓任务的幼儿上肢之间的反相位(或逆振荡运动)协调模式(见Brakke, Fragaszy, Simpson, Hoy, & Cummins-Sebree, 2007)。本研究首次尝试通过检查双手活动变化的微遗传学和个体遗传学模式来记录反相模式的出现。我们报告了一项纵向研究的结果,在这项研究中,7名幼儿从15个月到27个月每月进行一次双手击鼓任务。在一些试验中,一个成年人模仿同相或反相的动作;在其他试验中,没有模拟任何行动。我们通过评估几个运动参数(振荡频率、鼓槌振幅比、开始运动时肢体的初始位置和主要的手臂关节受损伤)的每回合和每个月的变化,记录了伴随着反相位双手协调模式出现的运动动力学。这些参数为了解幼儿如何探索运动空间以实现反相协调模式的更大稳定性提供了一个良好的起点。训练有素的研究助理使用Motus软件来隔离每一轮击鼓,并将两个鼓槌头相对于静止鼓面的运动数字化。因为我们主要对孩子手中的鸡腿的垂直运动感兴趣,我们依赖于二维分析和分析数据,这些数据是由单个摄像机跟踪的。我们对每个参与者使用线性混合效应分析和定性分析来帮助阐明儿童使用反相位协调的出现和稳定性。这种方法促进了对个体行为途径的描述,而这种描述只有在纵向设计中才有可能实现,比如这里使用的纵向设计。我们的分析表明,在这种情况下,正在学习产生反相位运动的幼儿采用了各种策略来调整他们的行动地形。具体来说,正如我们所假设的那样,幼儿利用不同的振荡频率和运动幅度来支持向反相位动作的转变,这种转变早在15个月大时就出现了,但直到大约20个月大时才变得相对稳定。我们发现有证据表明,许多幼儿在从同相鼓声过渡到反相鼓声之前会降低振荡频率。幼儿还使用不同的方法来暂时调节四肢之间的振幅比,以允许协调从同相到反相的变化。然而,这些振荡频率和振幅比策略在练习中和练习之间穿插着非系统的探索。我们还观察到,幼儿有时会改变他们最初的肢体位置来开始一场比赛,或者改变他们在打鼓时使用的主要手臂关节。当他们实施这些改变时,幼儿在击鼓时增加了反相位协调模式的表现。然而,我们没有发现对这些肢体位置和关节使用变化进行系统探索的证据,这表明幼儿并没有故意使用这些策略来提高他们在任务中的表现。 虽然双手击鼓代表了一种高度特定的行为,但我们对这种情况下反相协调模式出现的机制的研究是更广泛地理解运动协调发展所需的缺失部分之一。我们的研究结果表明,反相协调模式通过运动动力学和吸引子景观(即运动库)变化的调节而出现并稳定。与运动控制、运动学习和技能发展方面的文献一致,我们的研究结果表明,个体发育过程中运动的习得可以被认为是对感知和行动的紧急动态的探索。这一结论与运动发展的系统方法相一致,其中功能动力学,而不是特定的结构,为理解技能的发展变化提供了基础。基于我们的研究结果以及之前相关的实证文献,我们提出了一个将发展动态纳入HKB模型的概念模型。这个概念模型要求使用动态系统方法进行新的研究,该方法允许直接控制运动参数,并建立在我们在当前工作中描述的方法和现象的基础上。
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The Development of Bimanual Coordination Across Toddlerhood.

As one of the hallmarks of human activity and cultural achievement, bimanual coordination has been the focus of research efforts in multiple fields of inquiry. Since the seminal work of Cohen (1971) and Kelso and colleagues (Haken, Kelso, & Bunz, 1985; Kelso, Southard, & Goodman, 1979), bimanual action has served as a model system used to investigate the role of cortical, perceptual, cognitive, and situational underpinnings of coordinated movement sequences (e.g., Bingham, 2004; Oliveira & Ivry, 2008). This work has been guided primarily by dynamical systems theory in general, and by the formal Haken-Kelso-Bunz (HKB; 1985) model of bimanual coordination, in particular. The HKB model describes the self-organizing relationship between a coordinated movement pattern and the underlying parameters that support that pattern, and can also be used to conceptualize and test predictions of how changes in coordination occur. Much of the work investigating bimanual control under the HKB model has been conducted with adults who are acting over time periods of a few seconds to a few days. However, there are also changes in bimanual control that occur over far longer time spans, including those that emerge across childhood and into adolescence (e.g., Wolff, Kotwica, & Obregon, 1998). Using the formal HKB model as a starting point, we analyzed the ontogenetic emergence of a particular pattern of bimanual coordination, specifically, the anti-phase (or inverse oscillatory motion) coordination pattern between the upper limbs in toddlers who are performing a drumming task (see Brakke, Fragaszy, Simpson, Hoy, & Cummins-Sebree, 2007). This study represents a first attempt to document the emergence of the anti-phase pattern by examining both microgenetic and ontogenetic patterns of change in bimanual activity. We report the results of a longitudinal study in which seven toddlers engaged monthly in a bimanual drumming task from 15 to 27 months of age. On some trials, an adult modeled in-phase or anti-phase action; on other trials, no action was modeled. We documented the motion dynamics accompanying the emergence of the anti-phase bimanual coordination pattern by assessing bout-to-bout and month-to-month changes in several movement parameters-oscillation frequency, amplitude ratio of the drumsticks, initial position of the limbs to begin bouts, and primary arm-joint involvement. These parameters provided a good starting point to understand how toddlers explore movement space in order to achieve greater stability in performing the anti-phase coordination pattern. Trained research assistants used Motus software to isolate each bout of drumming and to digitize the movement of the two drumstick heads relative to the stationary drum surface. Because we were primarily interested in the vertical movement of the drumsticks that were held in the child's hands, we relied on two-dimensional analyses and analyzed data that were tracked by a single camera. We used linear mixed effects analyses as well as qualitative analyses for each participant to help elucidate the emergence and stability of the child's use of anti-phase coordination. This approach facilitated descriptions of individual pathways of behavior that are possible only with longitudinal designs such as the one used here. Our analyses indicated that toddlers who were learning to produce anti-phase motion in this context employed a variety of strategies to adjust the topography of their action. Specifically, as we hypothesized, toddlers differentially exploited oscillation frequency and movement amplitude to support change to anti-phase action, which briefly appeared as early as 15 months of age but did not become relatively stable until approximately 20 months of age. We found evidence that many toddlers reduced oscillation frequency before transitioning from in-phase to anti-phase drumming. Toddlers also used different means of momentarily modulating the amplitude ratio between limbs to allow a change in coordination from in-phase to anti-phase. Nevertheless, these oscillation-frequency and amplitude-ratio strategies were interspersed by periods of nonsystematic exploration both within and between bouts of practice. We also observed that toddlers sometimes changed their initial limb positions to start a bout or altered which primary arm joints they used when drumming. When they enacted these changes, the toddlers increased performance of the anti-phase coordination pattern in their drumming. However, we found no evidence of systematic exploration with these changes in limb position and joint employment, suggesting that the toddlers did not intentionally employ these strategies to improve their performance on the task. Although bimanual drumming represents a highly specific behavior, our examination of the mechanisms underlying emergence of the anti-phase coordination pattern in this context is one of the missing pieces needed to understand the development of motor coordination more broadly. Our results document that the anti-phase coordination pattern emerges and stabilizes through modulation of the dynamics of the movement and change of the attractor landscape (i.e., the motor repertoire). Consistent with literatures in motor control, motor learning, and skill development, our results suggest that the acquisition of movements in ontogenetic development can be thought of as exploration of the emergent dynamics of perception and action. This conclusion is commensurate with a systemic approach to motor development in which functional dynamics, rather than specific structures, provide the basis for understanding developmental changes in skill. Based on our results as well as the relevant previous empirical literature, we present a conceptual model that incorporates developmental dynamics into the HKB model. This conceptual model calls for new investigations using a dynamical systems approach that allows direct control of movement parameters, and that builds on the methods and phenomena that we have described in the current work.

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期刊介绍: Since 1935, Monographs of the Society for Research in Child Development has been a platform for presenting in-depth research studies and significant findings in child development and related disciplines. Each issue features a single study or a collection of papers on a unified theme, often complemented by commentary and discussion. In alignment with all Society for Research in Child Development (SRCD) publications, the Monographs facilitate the exchange of data, techniques, research methods, and conclusions among development specialists across diverse disciplines. Subscribing to the Monographs series also includes a full subscription (6 issues) to Child Development, the flagship journal of the SRCD, and Child Development Perspectives, the newest journal from the SRCD.
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