Predicting interruptibility for manual data collection: a cluster-based user model

Proceedings of the 19th International Conference on Human-Computer Interaction with Mobile Devices and Services Pub Date : 2017-09-04 DOI:10.1145/3098279.3098532

Aku Visuri, N. V. Berkel, Chu Luo, Jorge Gonçalves, Denzil Ferreira, V. Kostakos

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引用次数: 24

Abstract

Previous work suggests that Quantified-Self applications can retain long-term usage with motivational methods. These methods often require intermittent attention requests with manual data input. This may cause unnecessary burden to the user, leading to annoyance, frustration and possible application abandonment. We designed a novel method that uses on-screen alert dialogs to transform recurrent smartphone usage sessions into moments of data contributions and evaluate how accurately machine learning can reduce unintended interruptions. We collected sensor data from 48 participants during a 4-week long deployment and analysed how personal device usage can be considered in scheduling data inputs. We show that up to 81.7% of user interactions with the alert dialogs can be accurately predicted using user clusters, and up to 75.5% of unintended interruptions can be prevented and rescheduled. Our approach can be leveraged by applications that require self-reports on a frequent basis and may provide a better longitudinal QS experience.

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预测手动数据收集的可中断性:基于集群的用户模型

先前的研究表明，量化自我应用可以与激励方法一起长期使用。这些方法通常需要间歇性地注意手动数据输入请求。这可能会给用户带来不必要的负担，导致烦恼、沮丧和可能的应用程序放弃。我们设计了一种新颖的方法，使用屏幕上的警报对话框将反复使用智能手机的会话转换为数据贡献的时刻，并评估机器学习如何准确地减少意外中断。我们在为期4周的部署中收集了48名参与者的传感器数据，并分析了在调度数据输入时如何考虑个人设备使用情况。我们表明，使用用户集群可以准确预测高达81.7%的用户与警报对话框的交互，并且可以防止和重新安排高达75.5%的意外中断。需要频繁自我报告的应用程序可以利用我们的方法，并可能提供更好的纵向QS体验。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 19th International Conference on Human-Computer Interaction with Mobile Devices and Services

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