Abstract
Internet of Things (IoT) is innovation in the field of Communication where a number of intelligent devices are involved sharing information and making collaborative decision. IOT is going to be a market-changing force for a wide variety of real-time monitoring applications, such as E-healthcare, homes automation system, environmental monitoring and industrial automation as it is supporting to a large number of characteristics and achieving better cost efficiency. This article explores the emerging IoT in terms of the potential Energy Efficiency Reliability (EER) issues. This paper discusses the potential EER barriers with examples and suggests remedies and techniques which are helpful in propelling the development and deployment of IoT applications.
Highlights
Internet of Things is a new research in the field of Internet
All Internet of Things (IoT) communication systems may have unique features in a rapidly growing environment, and they are generally organized in an architecture similar to that shown in Figure 2, with the following common characteristic: a massive number of sensor nodes are deployed in the IoT domain to collect useful monitoring data by sensing technologies and real-time processes, and to transmit sensory data to the Back End Servers (BS) in the application domain without direct human intervention
In [7], a local vote decision fusion (LVDF) algorithm is presented, which can be directly applied in IoT communication
Summary
IoT is the advance version of Machine to Machine (M2M) Communication, where each object connects with another object, without human intervention. In IoT, billions of objects can communicate, recognize and respond without human intervention. With the advent of internet, all computers are able to connect and communicate. Their ability is limited to communication but they can control and monitor another device. The vision behind Internet of Things is that embedded devices, called smart objects, will universally become IP enabled with the help of IPV6. They will slowly become an integral part of the internet. This paper technically discusses the energy efficiency and reliability issues in emerging IoT communications, and suggests introduction of efficient activity scheduling schemes for providing an energy efficient and reliable IoT communications environment
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