WEATHER MONITORING SYTEM USING ARDUINO

Indian agribusiness is assorted, extending from ruined ranch towns to created ranches using present day farming. Farming has extraordinary void for innovative propel, Agriculture field can be bolstered and upset utilizing bleeding edge web of things (IOT) innovation. Computerized water system in light of soil moister and temperature can accomplish by inserting Arduino improvement board with simple receptive soil sensors. To improve encourage advancement an Android based gadget App interface will be organized to use GSM sensor interface. The point is to make a remote telemetry framework to be utilized as a part of the field of horticulture. The ecological variables to be specific the dampness and soil dampness with the assistance of Arduino and their relating sensors. For this paper, the defenders did this utilizing an Arduino-Android interface. For instance of information incorporate moistness and soil dampness. Every one of these information send to the cell phone utilizing an Arduino GSM interface. This technique is not so much exorbitant but rather more effective contrasted with the first because of the way that the phone system is entrenched and available from anyplace in the nation.

American Journal of Networks and Communications, 2015

The system also proposes a wireless connectivity by using the Bluetooth communication standard providing of a reliable, portable and a low-cost tool for industry where it is necessary to have an environmental control to carry out critical processes. The weather system consist of an embedded system to the development of multimedia applications based on the PIC32 microcontroller, and development is performed using the SPIES methodology for the construct embedded systems. In this paper the design of a portable system that allows monitoring of four climatic variables (temperature, relative humidity, pressure and altitude). The purpose of the system is to serve as an auxiliary tool to make decisions subsystems for environmental control in different areas.

SN Computer Science

At present, the agriculture sector is moving towards smart agriculture for the proper crop and land management such as minimizing the use of irrigation water and the temperature in a greenhouse among many others. In agricultural fields, either outdoor or indoor, monitoring real-time weather is an important tool. A novel, handheld palmtop weather station that can measure ambient environmental parameters such as air temperature, humidity, barometric pressure, dew point, soil moisture level, and carbon monoxide in the atmosphere with high precision was developed and discussed in this paper. The device comprises an ATMEGA 2560 Microcontroller, a sensor panel, a power unit with rechargeable and removable batteries, an LCD display, and local and cloud storage with a customized web portal. An ergonomic cover was also designed for the device with a micro-USB charging port and a common port to connect external modular sensors such as a soil moisture sensor. As the device is an IoT-enabled device, the user can upload real-time data into a customized website with the location. Sensor accuracy tests were carried out for temperature and humidity with the available reference instruments and the response time of the device was also tested as it affects the performance of the device. Keywords Ambient environmental parameters • Real-time analysis • Internet of Things (IoT) • GSM-based communications • Meteorological sensors Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

In agriculture zone, it is necessary to continuously monitor weather conditions so as to plan future activities accordingly. However, using the currently available wired and analog devices may not be easy as well as suggestible as they are very difficult to handle during critical weather conditions. To overcome this problem, we are developing a sensor network, so as to monitor weather changes. Monitoring the weather parameters in agriculture zone is an important aspect of the farming production process. A wireless sensor network is developed as a weather monitoring system for informing farmers about weather changes and provides them with respective guidelines to plan their field. The weather parameters that are being monitored are temperature and humidity. The main aim of the system is to make use of wireless sensor network for sending information over long distances consuming low power. Low power proves to be an advantage,as because of this, the system can be easily installed and managed at locations where hardwiring is impossible or there is no access to electricity. The system put forth in this paper is a well-advanced solution for monitoring the weather conditions at a particular place and make the information available anywhere to the farmers within a click. We are using the technology called Internet of Things (IoT) to connect devices and sensors involved using Internet.

2021

Climate monitoring has become an essential skill within the Mauritian community in face of the increasing number of meteorological hazards to which the island is subjected. The tourism sector, which is one of the main pillar of the Mauritian economy, is intricately connected to climate events and many inhabitants livelihood may be at stake if an ignorant eye is casted over environmental disruptions. Hence, the need to increase awareness concerning climate change through experiential educational strategies has emerged as a crucial requirement in schools. This paper demonstrates how the use of a low-cost Arduino based mobile weather station can enable learners to follow up with climate change within their immediate environment and thereby contribute in decision-making processes. Moreover, aspects of the island’s climate were investigated through the collection of various metrics such as indoor/outdoor temperatures, humidity, atmospheric pressure, altitude, dew point temperature, and h...

FUOYE Journal of Engineering and Technology, 2020

A weather station is a facility located either on land or sea consisting of instruments and equipment which can be used to measure atmospheric conditions so as to provide weather forecasts information and to study the weather. The existing instruments used for measuring the weather elements are expensive which led to the development of a low-cost Arduino-based weather station. The developed low-cost weather station consists of three separate modules which are data collection, data storage, and data communication. These modules communicate serially with each other and are controlled by three separate microcontrollers (Arduino Uno). The data collection module is interfaced with a set of sensors that collects temperature and humidity. The weather data were viewed in real-time through a graphical user interface (GUI) located at the central station. The developed weather station was able to measure the temperature and humidity of a controlled environment, giving the reading at interval o...

The embedded technology is now in its prime and wealth of knowledge available is mind blowing. Embedded project has new opportunities for the peasants and benefits them in various aspects. The system has been proposed to monitor the Weather and Control the Humidity of Agricultural Land. This Project Main objective is to control the Water Pump Motor whenever Soil Moisture Decreases below average level using Microcontroller. This Project also Monitor the Rain Possibilities and environmental Temperature. And a detail of weather condition has send to authorized Mobile number. Index Terms Solar Panel, Sensors, Cell phone, Microcontroller, GSM modem.

2018

Most of the rural agricultural and extension officers have no access to the daily variations in meteorological data that affect the growth and yield of crops. This is as a result of little or no access to the data that could be used to predict the best agricultural practices for optimum output in the rural environments. In this work, a portable and user friendly smart Automated Weather Station (AWS) was constructed. The device that is programmed with Arduino UNO is capable of measuring the temperature, relative humidity and moisture content of the soil. The performance evaluation of the device was observed in the laboratory and onsite (Covenant University farm) both on the sunny and rainy days respectively. It was revealed that there is positive linear relationship between the volume of water added to the soil sample and the soil moisture content in the laboratory measurements. The on-site measurements showed that the temperature is inversely proportional to the relative humidity an...

IRJET, 2022

Agriculture is the basic source of living in India, But due to a lack of information and experience, farmers sometimes Face problems So, we decide to work on this diverse topic and come up with a project agriculture Environment Monitoring system using the Android' in which the temperature and moisture will be evaluated and analyzed. Climate changes had a significant impact on agriculture products .therefore a number of new technologies are being created to conduct smart agriculture in order to increase the quality and quantity of agricultural goods. The project includes a Soil moisture sensor, Humidity sensor is used to measure soil parameters. A water motor will be present which will be automatically turned on if less water content is found in the soil. This Project can start out to be revolutionary in the Indian agriculture field. The suggested method aids in the process of remote monitoring and water conservation. A GUI was elaborate for the android device to get all the parameters of the agriculture environment and we can see the parameter at present time.

2018

The measurement of temperature, relative humidity and light intensity remotely by using the sensor is not only important in weather monitoring but also crucial for many other applications such as agriculture and industrial processes. This study proposed a remote weather monitoring system that is based on Arduino Uno Microcontroller that have the ability to monitor, measure and display the temperature, relative humidity and light intensity of the atmosphere, using analogue and digital components. The analogue outputs of the sensors are connected to a microcontroller through an ADC for digital signal conversion and data logging. An LCD display is also connected to the microcontroller to display the measurement. For analysis and archiving purposes, the data can be transferred over GSM and receiver section to a mobile phone. The device has many advantages compared to other weather monitoring system in terms of its smaller size, on-device display, low cost and portability. The major strength of our proposed technique is that it does not need computer or internet service for monitoring locations remotely hence making the method to be cost effective. It is obvious that our proposed system is better in terms of expense, compactness, memory size and logging interval-setting ability.