Project Aim and Scope the information will be analyzed, which automatically collected by the sensor, This new sensor network offers quicker and clearer results.

By virtue of the service provided by the company Libelium. Which is Connecting any sensor to any cloud platform using any wireless technology.     we will installed several measuring points all over the farm to monitor relative humidity, temperature, and soil humidity, among others. Compiled real-time data is sent to the back-end platform, specially designed by Libatel “Libatel is a leading Information and Communication Technology Systems Integrator in the Middle East and across the GCC.”, where is analyzed. This information is accessible from a computer or a smartphone, allowing the workers to obtain data automatically and to take decisions in a quicker and more efficient way.

For instance, they can determine where, when and for how long a Plant should be irrigated to optimize resources obtaining the best results.   Project Objective The objectives of this project are as the following: v  To provide farmers with an IoT based web application for monitoring the agricultural field and its conditions. v  Monitor the conditions of agricultural fields with IoT based sensor network and update it through the web app. v  Automate the watering(irrigation) of the crops based on their requirements and soil moisture v  Provide Live video streaming of the farm via the web app for remote monitoring. v  Analyze the weather pattern and provide required suggestions to the farmer. v  Provide information of the various crops by incorporating the openfarm API. v  Provide statistics of the farm based on the sensor database.   Project significance (half page, single spaced) Since various wireless networks progress into the next technology to provide better services, technology, wireless mesh systems (IOT), it is system of interrelated computers, physical and digital machines, items animals or people that are provided with unique identifiers and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction.

The solution to these problems is to use Agriculture Monitoring system using wireless and sensor networks, the main goal of most of the wireless mechanisms is to design and develop an agricultural monitoring system using wireless sensor network to increase the productivity and quality of farming without observing it for all the time manually. Temperature, humidity and carbon dioxide levels are the most important factors for the productivity, growth, and quality of plants in agriculture. So this system periodically measures these parameters inside the fields, thus the farmers or the agriculture experts can observe the measurements from the web simultaneously. Moreover, when a critical change in one of the measurements occurs, then the farmer will be intimated via mobile text message and e-mail by an agriculture expert. With the continuous monitoring of many environmental parameters, the grower can analyze the optimal environmental conditions to achieve maximum crop productiveness, for the better productivity and to achieve remarkable energy savings.   Methodology (clearly state how you plan to accomplish the project goals – half page, single spaced) The methodology (phases) that we will used to develop our project (algorithm) are waterfall model (SDLC) which includes the following steps 10.   Figure 1: Waterfall Model   System Engineering (Requirements) System Engineering is the first phase of SDLC; it is the fundamental process of understanding why an information system should be built and determining how the project team will go about building it. In this phase we will carried the objectives, scope and schedules of our project.

  Analysis and Design The analysis phase is second step in our project; it is answers the questions of who will use the system (i.e. Libatel, Libelium,), what the system will do, and where and when it will be used.

During this phase, we will discuss and analyses about developing (design) process of our project including Data flow diagram (UML).   Coding /Simulation In this phase we will discuss the Sensors of our project and Their installation will be accomplished during this stage.   Testing Testing is the process of finding differences between the expected behaviors specified by the system model and the observed behavior of the implemented system, in this step we will show the test plan which programmer used to test the system. System testing is an important phase in SDLC to ensure the system is work.   Maintenance Maintaining the system is an important aspect of SDLC.

In this phase the changes, correction, additions, and moves to a different computing platform and more, new changes will be implemented, which will require system updates

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