rainfall measurement system

The product of this project is the development of rainfall measurement system based on iot (internet of things)

The product of this project is a rainfall system that allows the control and measurement of rain in a region containing various equipment and interconnected sensors via a 6LoWPAN-compliant network combined with the IEEE 802.15.4 standard. The data recovered from the sensors will be stored in a database in a web server. This communication is provided by two applications under Androïd and Web. This system is based on a Raspberry Pi board, an Arduino board, an Ethernet Shield board and sensors as hardware environment. Applications are developed by Androïd Studio, Apache Xampp, Python and Arduino IDE based on the wireless sensor network

Rainfall management is part of the field of innovative production systems that aim to provide tools and models to manage the hazards of the latter. The application of such systems will have multiple objectives, and in our case the main objective and to know the amount of rainfall in measure the level of rainfall.

The development of new information and communication technologies has given birth to the concept of the Internet of Things which is a concept that aims to integrate physical objects to the Internet via a standard addressing system to identify them. a unique way. Thus, the great diversity of applications of these intelligent objects leads to the use of wireless sensor networks which constitute a sub-class among these object networks. Given the need of the human being of such a region to know the level of rainfall, it also seems important to see crucial to develop an intelligent measurement system based on the Internet of Things and wireless sensor networks to remedy all the problems considered. In this perspective, our study is based on the development of a rainfall system based on the Internet of Things and wireless sensor networks in order to exploit resources to avoid wastage and make mobility in the soft city.

my project is to develop a rainfall system based on the Internet of Things and wireless sensor networks. This project aims to:

To answer the problems of rainfall within the regions, to benefit from a real time adaptation of the proposed route in case of rain or, thus of a saving of time by using an Android application.
Sensors measuring the level of precipitation and employees can also participate in the collection of data via their smartphones, by downloading the application.
The system makes it possible to know the region where the rain is, the places where the level reaches or exceeds threshold is the most rainy.
See also the precipitation history.
The aim is to optimize sustainable mobility by demonstrating the viability of the Internet of Things (IoT) and the sensor network (RCSF) under the IEEE 802.15.4 standard.
Integrate a web application and an android application to ensure the conection on the base and the display of the values and the control of system

This project, first of all, allowed us to better understand the principle of the Internet of Things as a new information and communication technology. As well to know the wireless sensor networks which is an underclass among these networks of connected objects.

This study allowed us to acquire new programming concepts as well as to deepen our theoretical knowledge. In general, we can say that this internship was rewarding.

Due to the increase in precipitation measurement performance, to replace the usual tilting bucket system of rain gauges. The activities presented here are intended to initiate measurements of liquid precipitation, rainfall being an important parameter of climatology

While satisfying the requirements outlined during the design and needs analysis, further improvements can be made to the project according to customer needs. It can be an independent component of an entire IoT platform that can span multiple domains.  We can improve our work with the use of IOT LORA network

Rainfall measures all precipitation in the form of rain that occurs over a geographical area and over a given period of time. The rain gauge, which was formerly a container fixed on a support, and whose opening placed horizontally and limited by a tapered edge very precisely determines a receiving surface (usually 400 cm2). The amount of rainwater collected by this unit is measured manually at regular time intervals (usually 24 hours), the results being expressed in tenths of a millimeter (one millimeter of rain is the equivalent of one liter per meter square).

we are a group of one teacher of data sciences and two students one in engeneering the other in master degree in data science and new technologies and we are members of the association tunisienne pour la recherche scientifique, l'innovation et la propriété intellectuelle

In our group we have many competence each one have his own domain we have network and internet of things technoilogie, we have also intelligence artificielle and we have web and mobile developpement.

our project can be as a solution to many country and we can have our society and use this system to do statistics and studies and sell them to the agriculture organisations or campanies

Passionate Internet for many years, we studied the early different programming languages associated with it. we are also involved in the creation and development of websites with friends before following comprehensive training to perfect our knowledge.

 we had training in this area and we thus has expertise and know-how backed up by a practical course on a personal project.

 Familiar Web development languages, we master PHP, MySQL, ASP, Javascript, Perl, DHML, HTML, CSS, and has some knowledge in C and C ++, iot, network developpement, communicatin and sale developpement

 we know meet specifications, but also of proposals, stay creative and innovative within the constraints of a project.

 Methodical, rigorous, we easily integrate ourselves in a team.

Dynamic and motivated, we shall go quickly operational within your mission.