通过集成基于模型的UI开发和认知建模来预测环境系统的用户错误

Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing Pub Date : 2016-09-12 DOI:10.1145/2971648.2971667

M. Halbrügge, Michael Quade, Klaus-Peter Engelbrecht, S. Möller, S. Albayrak

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引用次数: 4

摘要

随着向普适计算的转变，用户界面(UI)不再局限于特定的设备。虽然这个问题可以使用基于模型的UI开发(MBUID)过程来解决，但是特定于设备的接口的可用性仍然是一个悬而未决的问题。为了在开发时提供可用性预测，我们提出了一个集成了MBUID和认知建模框架的组合系统。由于它们的潜在影响，我们在可用性问题中的重点在于用户错误。这些是在认知模型中捕获的，该模型利用MBUID系统提供的元信息，例如任务序列(例如，输入、输出、命令)中UI元素的抽象角色。认知模型的自由参数使用先前两项研究的数据进行约束。以新应用程序和UI为特征的验证实验产生了一个意想不到的错误模式，尽管如此，它与模型预测一致。

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Predicting user error for ambient systems by integrating model-based UI development and cognitive modeling

With the move to ubiquitous computing, user interfaces (UI) are no longer bound to specific devices. While this problem can be tackled using the model-based UI development (MBUID) process, the usability of the device-specific interfaces is still an open question. We are presenting a combined system that integrates MBUID with a cognitive modeling framework in order to provide usability predictions at development time. Because of their potential impact, our focus within usability problems lies on user errors. These are captured in a cognitive model that capitalizes on meta-information provided by the MBUID system such as the abstract role of a UI element within a task sequence (e.g., input, output, command). The free parameters of the cognitive model were constrained using data from two previous studies. A validation experiment featuring a new application and UI yielded an unexpected error pattern that was nonetheless consistent with the model predictions.

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Proceedings of the 2016 ACM International Joint Conference on Pervasive and Ubiquitous Computing

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