Sophisticated electronics are within reach of average users. Cooperation between wireless sensor networks and existing consumer electronic infrastructures can assist in the areas of health care and patient monitoring. This will improve the quality of life of patients, provide early detection for certain ailments, and improve doctor-patient efficiency. The goal of our work is to focus on health-related applications of wireless sensor networks. In this paper we detail our experiences building several prototypes and discuss the driving force behind home health monitoring and how current (and future) technologies will enable automated home health monitoring.
Although electronic devices permeate the home and offer unsurpassed power and features, many impediments still exist to realizing the concept of the smart-home: configuration complexity, minimal device interoperability, difficulty of use, lack of personalization, and no integration with sensors for awareness and adaptation. We define four tenets of smart-home environment: Zero-configuration, Universality, Multiuser optimality, and Adaptability (ZUMA), and describe a platform based on a set of clean abstractions for users, content, and devices. The platform enables configuration and organization of content and networked heterogeneous devices in a smart-home environment. We validate the platform with a prototype implementation and analyze its flexibility and infrastructure requirements. 1 *The ZUMA project is funded by the Gigascale Systems Research Center www.gigascale.org
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