基于BLE信标发起通知的可靠移动-近距离交互机制

Sangwon Seo, K. Jeon, Soochang Park
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引用次数: 0

摘要

本研究探讨了基于智能手机交互应用的户外区域蓝牙低功耗(BLE)信标推送通知的可靠性和定时问题。首先,信标信号完全覆盖目标区域。第二个问题是信标基础设施的设计是针对环境属性的可靠性能。最后,智能手机或移动设备的通知体验质量要求很高,即使用户具有移动性,例如驾驶汽车的用户,骑自行车的用户,步行的用户等。为了在基于智能手机-信标交互的交互系统设计和智能应用的实际部署中找到实现这些功能的基线,我们对信标在户外场所运行的真实性能进行了评估。我们将新的通知模型(称为n-1模型)与一个通知具有单个内容的典型1-1对齐平均值进行比较,n-1模型仅处理具有提供内容冗余的应用程序变量。所提出的模型在克服这些障碍时平均提高了70%。
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Reliable Mobile-Proximity Interaction Mechanism Based on BLE Beacon-Initiated Notification
This research explores reliability and timing issues of push notification from Bluetooth Low Energy (BLE) beacons in outdoor districts for smartphone-based interactive applications. First, beacon signals fully cover a targeted area. The second issue is that beacon infrastructure is designed for reliable performance against environmental properties. Finally, the experience quality of notification to smartphone or mobile devices takes high level even though users have mobility such as a driver in a car, a user riding a bicycle, a walking user, etc. For finding out base lines to achieve these features in interactive system design and practical deployment of smart applications based on smartphone-beacon interaction, we evaluate real performances of beacon running at outdoor places. We compare the novel notification model, named n-1 model, which merely copes with application variables with delivering content redundancy, to the typical 1-1 alignment mean of one notification with single content. The proposed model shows average 70 % improvement against those impediments.
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