Smart Home Communication Technologies and Applications: Wireless Protocol Assessment for Home Area Network Resources

Energies
2015
, 
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Taking into account the different purposes of each of these areas, a global network is needed for an 
integrated higher structure of communication that comprises several dedicated home networks. The 
interoperability between the different applications relies on a universal multi-purpose home gateway 
that acts as communication protocol translator. It is actually a data aggregator that processes data traffic 
coming from different home networks, independent of the means of physical transmission,
 i.e.
, wired or 
wireless. On the other hand, the gateway connects the Smart Home data communication infrastructures 
with the outside world. The connection can be routed to a mobile network or through a cable based 
infrastructure. At the upper level, the data is forwarded to a cloud system where it is classified, 
organized and stored for different purposes and aims. In turn, their access is provided to specific 
entities such as a smart grid [7], smart city [9], and smart healthcare network, which will make sharing 
all the managed information with external elements possible. 
3.1.1. Home Gateway with M2M Interface as Enabler for Smart Home Services 
Machine-to-machine (M2M) refers to technologies that can enable both wireless and wired systems 
to interact with other devices of the same nature and where one device generates events and the other 
interprets them. Among a wide range of possible applications at the early development of M2M, smart 
homes have the highest market potential for the reason that it is closely related to human life [44,45]. 
Along with the growth of M2M related technologies, wireless networks (WN) are in the process of 
being applied to smart home systems, therefore, enabling a greater ability for devices and a more 
reliable and richer function of the smart home system [45,46]. M2M wireless networks can help to 
increase the production and efficiency of machines and to improve the safety and reliability of 
complex systems [47]. 
The main concerning issues in these M2M service networks come from the vertical fragmentation 
and complexity of M2M markets. This complexity is as a result of the number of connectivity means, 
embedded devices, and service platforms—particularly of their heterogeneity [48]. 
3.1.2. HAN Oriented Cloud 
Cloud computing has just emerged as a new paradigm of ubiquitous computing and has been one of 
the utmost significant improvements in computer technologies and industry in recent years.
The development of cloud computing expands the capacity of computer calculation and the convenience 
for the users [40]. Though home automation technologies already are commercially available, they are 
essentially intended for signal-family smart homes with a high cost, and are alongside the continuous 
development of digital appliances in smart homes. 
There are many benefits of introducing two-way communication of the smart home HAN with a 
cloud based system. In the first place, information of the house’s expected electricity usage comportment 
is concentrated and made available to a utility, load serving entity or an aggregator. Therefore, these 
entities are able to execute their optimization processes by ensuring precise information of their 
consumers. Another significant feature is that the end-user could remotely access with a smartphone, 
data regarding electricity consumption or even set parameters to the HAN in real-time. 
Moreover, the computational resources part of HAN in a domestic environment are systems that 
might have reduced capacities of storage and computational power and in the case of data being stored 

Energies

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