Abstract
With the growing number of mobile devices receiving daily notifications, it is necessary to manage the variety of information produced. New smart devices are developed every day with the ability to generate, send, and display messages about their status, data, and information about other devices. Consequently, the number of notifications received by a user is increasing and their tolerance may decrease in a short time. With this, it is necessary to develop a management system and notification controls. In this context, this work proposes a notification and alert management system called PRISER. Its focus is on user profiles and environments, applying data privacy criteria.
Highlights
Technological evolutions in the urban area have allowed for the integration of sensor networks and devices together with all citizens involved in the daily context
This paper is structured into seven sections: Section 2 presents the related works; Section 3 is dedicated to the description of the taxonomy; a proposed solution and the test scenario are presented in Section 4; Section 5 presents the prototype and the experimental results and, ; in Section 6, we present the conclusions and contributions obtained
Through a production environment with more than 680,000 real users testing the application for 21 days, in this, we have demonstrated the effectiveness of their system using an Android System [17]
Summary
Technological evolutions in the urban area have allowed for the integration of sensor networks and devices together with all citizens involved in the daily context. These devices are capable of sensing, processing data and communicating through a network [1] Today this term is used more comprehensively, including in healthcare, logistics, security, agriculture, among others, the primary goal remains the same—to make create computers to that capture real-world information without the help of human intervention [2]. In the context of notifications, visual, sound and haptic (vibrations) resources are used to guide the user’s attention with the purpose of delivering instantaneous information [8] According to these functionalities and with intent to guarantee communication between users and devices present in intelligent environments, it is common to adapt pre-defined requirements and parameters. This paper is structured into seven sections: Section 2 presents the related works; Section 3 is dedicated to the description of the taxonomy; a proposed solution and the test scenario are presented in Section 4; Section 5 presents the prototype and the experimental results and, ; in Section 6, we present the conclusions and contributions obtained
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