Quality‐enabled decentralized dynamic IoT platform with scalable resources integration

Abstract

AbstractThe Internet of Things (IoT) are standard inter connected devices aimed at join everyday object to the internet. This ecosystem include manufacturing, agriculture, smart cities, industry, as well as healthcare. The capacity of controlling and monitoring the objects of the physical world using IoT generate numerous opportunities. However some extra cost is also added to make the device globally accessible. The aggressive growth of the IoT devices, the multifariousness of IoT network technology, and the diversity of IoT use cases generate a question mark regarding the sustainability of the IoT. The aim of the proposed work to contribute in this regard, for that a dynamic integration of IoT objects that is pre determined for (i) creating an IoT platform dynamically (ii) monitoring the current status of IoT environment (iii) measuring the quality of the overall system (iv) helping to utilize all the interconnected efficiently by adding M2M communication, is introduced. Some property set which is suitable for decentralized IoT platform is also explained. Such types of dynamic IoT platform helps in every IoT application domain including industrial IoT. With the propound research, the aim is to create a dynamic IoT platform to simplify the production of next generation. The primary contribution of the proposed paper is a concept which can help to design IoT device in a faster way, which can be called rapid hardware development approach. Efficiently used human resources, that means any one having common technical knowledge can design the device, and reduce the hardware heterogeneous architecture.