An Integrated Cloud-Based Smart Home Management System with Community Hierarchy
ABSTARCT :
This paper presents a smart home management system in which a community broker role is used for integrating community services, thereby reducing the workload of community management staff, providing electronic information services, and deepening the community’s integration with the surrounding environment. At the home end, a home intranet was created by integrating a fixed touch panel with a home controller system and various sensors and devices to deliver, for example, energy, scenario information, and security functions. The community end comprises a community server and community personal computers, and connects to devices (e.g., video cameras and building automation devices) in other community systems and to the home networks. Furthermore, to achieve multiple inhome displays, standard interface devices can be employed to separate the logic and user interfaces. This study also determined that the message queuing telemetry transport protocol can provide optimal home control services in smart home systems, whereas hypertext transfer protocol is optimal for delivering location-based information integration services.
EXISTING SYSTEM :
? Appliances can be controlled remotely using applications on smart phones that are connected via Wi-Fi and the Internet. Communication to SHAS is simple and affordable using the existing network infrastructure.
? However, SHAS can be developed using existing electrical appliances and connect to cloud services.
? The existing house with the existing appliances can be customized to SHAS by using low-cost tools such as smart switches and plugs.
? They created IoT server or subscribe to the existing cloud service such as Amazon Web Services IoT platform, Microsoft Azure IoT hub, IBM Watson IoT platform, Google Cloud IoT and Cisco IoT Cloud Connect.
DISADVANTAGE :
? There is a need to address heterogeneity issue of the smart appliances so that consumers can have centralized control of those devices.
? It is anticipated that more studies related to web services will evolve in the near future due to the heterogeneity issue in SHAS.
? EUD is an approach to resolving issues in IoT specifically with respect to user preferences and their specific requirements for smart home.
? It causes heterogeneity issue, in which each manufacturer uses their custom firmware, and communication protocols.
PROPOSED SYSTEM :
• We propose a cost-effective integrated system for smart home based on IoT and Edge-Computing paradigm.
• The proposed system provides remote and automatic control to home appliances, ensuring security and safety.
• We propose an automatic, secure, energy-efficient, cost-effective, and reliable solution to the smart home based on edge-computing functionality.
• It consists of Identity-based parameters, foot size, pressure, namely weight, and movement. Superior performance is achieved by their proposed work as compared to other SoTA prediction models.
ADVANTAGE :
? These technologies are used extensively in home energy management, although their applications are mainly limited to individual households
? Daily operations (e.g., notices regarding registered mail, parcels, and fees; announcements regarding water and power service interruptions and residential council meetings; and gas meter readings) become paperless, thereby enhancing operational efficiency and saving resources.
? To efficiently evaluate the feasibility of the proposed architecture for use in different scenarios, this study compared the data traffic and latency generated by the MQTT- and HTTP-based architectures.
? However, the number of home devices can vary by time, which may incrementally affect the number of topics and the subsequent efficiency of the servers.
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