This system has been built to contain three control systems that means there are three different Fuzzy controllers. In order to keep the system practicality, the fuzzy controllers should be aggregated in single code that resides in single microcontroller chip with additional codes that perform the IoT duties. The proposed IoT system provides the ability for specific people to monitor and manage their systems remotely, using a web application with cloud technology. The major contributions of the proposed system are started by downloading the controller’s set-points (the desired environmental conditions) from the web page, transfer the set- points to the controllers, and upload data that read from sensors to the same web page.) Index Terms— The Greenhouse Technology, IoT Technology, Temperature Control, Fuzzy Controllers. Introduction I. I NTRODUCTION IoT Technology has been used to reduce the distance
between the staff in the article “Things” and its digital
impersonation in data frameworks. It’s seen as the next-
generation network (NGN) of the internet [1].
The IoT is driven by an extension of the Internet through
the incorporation of physical articles joined with a capacity
to provide more quick-witted administrations to the earth as
more information ends up noticeably accessible. Several
application areas going from Green-IT and vitality
effectiveness to coordination’s are now beginning to profit
by Internet of Things ideas [2].
A Greenhouse provides basic methods for employment
to its proprietor and must be financially pragmatic for the
specific atmosphere in which it stands. Also, Greenhouse
could be defined as advanced Innovation for Protected
Horticulture addresses the major natural elements of
light, temperature, and irrigation [3].
This paper investigates the usefulness of using the IoT
based on the greenhouse to utilize low-cost tools and
decrease the effort of the Pleasants. This could be
implemented by including the automation in irrigation
process, conserving temperature, and the degree of
brightness inside the greenhouse structure.
More recent attention has been focused on the provision
of improvement on the Internet of things (IoT) and how to
utilize it with the various applications. The IoT is interesting
subject that recently whiteness very large number of papers
that aimed to develop this technology. in next paragraphs,
several papers about the greenhouse with IoT should be
presented.
In 2013, C. wenshun et al. published a paper in which
they described the structure of services platform, even
operating layer, collecting, and control layer, arrange
transport layer and etc. then described the functions of
Zhuangluo sunlight greenhouse. Finally, how to run
interface and working condition of the system[4].
In 2015, L. Dan et al. presented their paper that centered
on using the CC2530 as core chip and introduces a
monitoring system design for greenhouse depends on the
ZigBee technology. A terminal node sends the temperature
to intermediate node by the wireless network, and this node
collects all data and sends them to the PC [5].
T. Quynh et al. (2015) suggest an article that analyzes
various models of greenhouse in Vietnam and monitoring
parameters required and proposes to apply single-path and
multiple-path routing protocol in order to improve the IoT
monitoring performance[6].
J. Zhao et al. (2010) proposes a paper that studies the
integration of control networks and information networks in
IoT in practical agriculture production. They also suggest a
method that combines the remote monitoring system and
wireless communications [7].
This paper has been written to show that IoT save
peasants efforts and make the work much easier when the
IoT used in Greenhouse applications. Also, this paper tries
to provide a solution for some network problems such as
dynamic Internet Protocol (IP) and global IP.
The proposed greenhouse has been implemented with
three intelligent control systems. These system could be
controlled by an intelligent Fuzzy controllers that providing
the best performance. The Fuzzy controllers must be resided
completely inside Microcontroller chip without require any
extra processing. This development feature leads to the
more sophisticated improvements of fuzzy systems in
practical environments.