心理治疗的非线性动态系统模型:验证的第一步和外部输入的作用。

IF 0.6 4区 心理学 Q4 PSYCHOLOGY, MATHEMATICAL Nonlinear Dynamics Psychology and Life Sciences Pub Date : 2019-01-01
Helmut Scholler, Kathrin Viol, Hannes Goditsch, Wolfgang Aichhorn, Marc-Thorsten Hutt, Gunter Schiepek
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引用次数: 0

摘要

数学建模和计算机模拟是了解心理治疗机制的重要手段。挑战在于设计的模型不仅能预测结果,而且能模拟变化的非线性轨迹。另一个挑战是用经验数据验证它们。我们提出了一个变革动力学模型,该模型集成了五个变量(顺序参数)(治疗进展或成功、变革动机、问题严重程度、情绪和洞察力)和四个控制参数(进入信任合作和工作联盟的能力、认知能力和正念、希望、行为资源)。控制参数调节与变量相关的非线性函数。系统的演化动力学由九个非线性差分方程组成,每个方程对应一个变量和参数。在这里,我们概述了如何通过变量的经验时间序列数据、治疗联盟的时间序列以及通过评估客户感知到的系统输入来测试和验证模型。这些参数在治疗开始和结束时通过问卷进行测量。验证算法的一个关键要素是将问卷评估的参数值调整为特定于模型的参数值,通过这些参数值可以再现动力学(校准)。验证步骤由使用基于互联网的高频治疗监测工具(每日自我评分)的客户数据说明。特别是在应用输入向量(客户所经历的干预)之后,经验和模型动态之间的相似性变得明显。在所有变量中,经验和模拟动态之间的平均相关性为0.41,在应用短平均平均窗口并消除初始瞬态期后,它为0.62,根据变量的不同,在0.47和0.81之间变化。讨论开辟了数学建模与实时监测相结合的观点,以便实现数据驱动的短期预测模拟,并在实际干预措施应用之前估计干预措施的效果。
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A Nonlinear Dynamic Systems Model of Psychotherapy: First Steps Toward Validation and the Role of External Input.

Mathematical modeling and computer simulations are important means to understand the mechanisms of psychotherapy. The challenge is to design models which not only predict outcome, but simulate the nonlinear trajectories of change. Another challenge is to validate them with empirical data. We proposed a model on change dynamics which integrates five variables (order parameters) (therapeutic progress or success, motivation for change, problem severity, emotions, and insight) and four control parameters (capacity to enter a trustful cooperation and working alliance, cognitive competencies and mindfulness, hopefulness, behavioral resources). The control parameters modulate the nonlinear functions interrelating the variables. The evolution dynamics of the system is determined by a set of nine nonlinear difference equations, one for each variable and parameter. Here we outline how the model can be tested and validated by empirical time series data of the variables, by time series of the therapeutic alliance, and by assessing the input onto the system as it is perceived by the client. The parameters are measured by questionnaires at the beginning and at the end of the treatment. A key element of the validation algorithm is the adjustment of the parameter values as assessed by the questionnaires to model-specific parameter values by which the dynamics can be reproduced (calibration). The validation steps are illustrated by the data of a client who used an internet-based tool for high-frequency therapy monitoring (daily self-ratings). Especially after applying the input vector (interventions as experienced by the client) the similarity between the empirical and the model dynamics becomes evident. The averaged correlation between the empirical and the simulated dynamics across all variables is .41, after applying a short averaging mean window and eliminating an initial transient period, it is .62, varying between .47 and .81, depending on the variable. The discussion opens perspectives on the combination of mathematical modeling with real-time monitoring in order to realize data-driven simulations for short-term predictions and to estimate the effects of interventions before real interventions are applied.

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来源期刊
CiteScore
1.40
自引率
11.10%
发文量
26
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