IoT Based Weather Monitoring System Using Arduino-UNO

Background: Weather monitoring is an important aspect of crop cultivation for reducing economic loss while increasing productivity. Weather is the combination of current meteorological components, such as temperature, wind direction and speed, amount and kind of precipitation, sunshine hours and so on. The weather defines a time span ranging from a few hours to several days. The periodic or continuous surveillance or the analysis of the status of the atmosphere and the climate, including parameters such as temperature, moisture, wind velocity and barometric pressure, is known as weather monitoring. Because of the increased usage of the internet, weather monitoring has been upgraded to smart weather monitoring. The Internet of Things (IoT) is one of the new technology that can help with many precision farming operations. Smart weather monitoring is one of the precision agriculture technologies that use sensors to monitor correct weather. The main objective of the research is to design a smart weather monitoring and real-time alert system to overcome the issue of monitoring weather conditions in agricultural farms in order for farmers to make better decisions. Methods: Different sensors were used in this study to detect temperature and humidity, pressure, rain, light intensity, CO2 level, wind speed and direction in an agricultural farm and real time clock sensor was used to measured real time weather data. The major component of this system was an Arduino Uno microcontroller and the system ran according to a program written in the Arduino Uno software. Result: This is a low-cost smart weather monitoring system. This system’s output unit were a liquid crystal display and a GSM900A module. The weather data was displayed on a liquid crystal display and the GSM900A module was used to send the data to a mobile phone. This smart weather station was used to monitor real-time weather conditions while sending weather information to the farmer’s mobile phone, allowing him to make better decisions to increase yield.

Download Full-text

A Heartbeat Detection Method Based On IOT and Monitoring System using Arduino Uno and Thing-Speak

International Journal of Electronics Communication & Instrumentation Engineering Research and Development ◽

10.24247/ijecierdaug20182 ◽

2018 ◽

Vol 8 (3) ◽

pp. 11-16

Author(s):

Harshad Narayan , Rijhi Dey Harshad Narayan , Rijhi Dey ◽

Keyword(s):

Monitoring System ◽

Detection Method ◽

Arduino Uno

Download Full-text

Implementation of an Automated System in the Measurement of Temperature in Broken Dynamic Equipment

International Journal of Recent Technology and Engineering - 2 ◽

10.35940/ijrte.c4357.099320 ◽

2020 ◽

Vol 9 (3) ◽

pp. 180-183

Keyword(s):

Temperature Measurement ◽

Monitoring System ◽

Temperature Control ◽

Theoretical Basis ◽

Lower Cost ◽

Automated System ◽

Cost System ◽

Arduino Uno

This article presents a titration project describing the implementation in the rotodynamic equipment of an economical automated temperature module, as a preventive solution for future failures caused by the lack of analysis in the increase or decrease in temperature. The project is currently contextualized in the area of industry, first, providing background to frame the importance of temperature control and measurement and also know what its evolution has been like. Immediately focuses on explaining the theoretical basis for giving context to the reader. For the purpose of detecting the increase or decrease of heat in machinery by implementing a monitoring system. The development of the project is based on the use of an LM35 transistor that connected to an Arduino Uno through various cables, will display the temperature measurement and make interface of the obtained results that will be reflected in a 2x16 LCD screen. The project is applied in a prototype bench in three key parts of the pulley, and in the two bearings to make the simulations, then perform corresponding tests and check that theory. A simple and lower cost system, but above all efficient that meets the expectations of the problem presented.

Download Full-text

Design of Control and Monitoring System of Air Condition at Controlled Atmosphere Storage Based on Arduino Uno Microcontroller

Jurnal Keteknikan Pertanian ◽

10.19028/jtep.06.1.75-82 ◽

2018 ◽

Vol 6 (1) ◽

pp. 1-8

Author(s):

Widyaningrum Widyaningrum ◽

◽

Yohanes Aris Purwanto ◽

Sutrisno Mardjan ◽

◽

...

Keyword(s):

Monitoring System ◽

Controlled Atmosphere ◽

Controlled Atmosphere Storage ◽

Arduino Uno ◽

Control And Monitoring System ◽

Atmosphere Storage

Download Full-text

TEMPERATURE AND HUMIDITY MOISTURE MONITORING SYSTEM WITH ARDUINO R3 AND DHT 11

Electro Luceat ◽

10.32531/jelekn.v5i2.154 ◽

2019 ◽

Vol 5 (2) ◽

pp. 40-47

Author(s):

Sonny Rumalutur ◽

Alimuddin Mappa

Keyword(s):

Monitoring System ◽

Room Temperature ◽

Air Conditioner ◽

Temperature And Humidity ◽

Modulation Signal ◽

Arduino Uno

This study discusses how to design an AC (Air Conditioner) system that can work based on the temperature and humidity of the room that is regulated by a system that uses Arduino UNO as a controller. Meanwhile, to measure the temperature and humidity of the room temperature by using a DHT sensor 11. PWM (Pluse Widht Modulation) signal from the microcontroller is used to set the relay driver so that the AC (air conditioner) can be on in accordance with the programmed with Arduino uno. AC (air conditioner) will be on as long as the temperature is still above 220C and will be off if the temperature has passed 220C and the duration of AC (air conditioner) on and off is determined by the temperature and humidity in the room.

Download Full-text

Design of a Monitoring System for Hydroganics based on Arduino Uno R3 to Realize Sustainable Development Goal`s number 2 Zero Hunger

Journal of Electronics, Electromedical Engineering, and Medical Informatics ◽

10.35882/jeeemi.v3i1.8 ◽

2021 ◽

Vol 3 (1) ◽

pp. 50-56

Author(s):

Anggara Trisna Nugraha ◽

Dadang Priyambodo

Keyword(s):

Soil Moisture ◽

Monitoring System ◽

Water Discharge ◽

Rice Production ◽

Rice Quality ◽

Moisture Sensor ◽

Self Sufficiency ◽

Average Water ◽

Arduino Uno ◽

Zero Hunger

In 2019 Indonesia is able to support its nation and does not need rice imports from abroad. This situation is called rice self-sufficiency. Then in order to maintain rice self-sufficiency from year to year, it is necessary to apply technology to increase the quality of rice production. Therefore, a Hydroganic Monitoring System Design was created which is used to monitor plant watering automatically using the YL-69 soil moisture sensor controlled by Arduino Uno and instructed to the LCD to display the soil moisture value according to soil pH in real time. The watering system that has been created can automatically drain water to the plants. The water that is flowed automatically by this system comes from the fish pond that is right below it, where the water from fish excrement will produce organic nutrients for rice plants. With this research, rice production will grow more effectively to improve rice quality. With this research, it is expected that Indonesian rice production will increase effectively and in line with the improvement of rice quality. From the research that has been conducted, it is found that from the experimental data above, it can be calculated that the average water discharge in one irrigation is 2.37 m/s.

Download Full-text

IoT Based Silence Monitoring System

Asian Journal of Computer Science and Technology ◽

10.51983/ajcst-2018.7.s1.1795 ◽

2018 ◽

Vol 7 (S1) ◽

pp. 101-103

Author(s):

E. Esther Devakirubai ◽

G. Indirani

Keyword(s):

Internet Of Things ◽

Monitoring System ◽

Arduino Uno

Internet of Things (IoT) finds application in many fields these days. This paper focuses on the use of IoT based monitoring of Silence which can be used in places where Silence maintenance is important like in libraries and in classrooms of schools. Further this paper proposes a system based on Arduino which involves programming Arduino Uno to achieve the purpose of Silence monitoring.

Download Full-text

PROTOTIPE DATA LOGGING MONITORING SYSTEM UNTUK KONVERSI ENERGI PANEL SURYA POLYCRYSTALLINE 100 WP BERBASIS ARDUINO UNO

Jurnal ECOTIPE ◽

10.33019/ecotipe.v7i1.1486 ◽

2020 ◽

Vol 7 (1) ◽

pp. 55-60

Author(s):

Welly Yandi

Keyword(s):

Monitoring System ◽

Data Logging ◽

Arduino Uno ◽

Sd Card

Data logging monitoring system merupakan sebuah alat yang berfungsi untuk memantau hasil keluaran panel surya berupa tegangan dan arus berdasarkan waktu dan suhu. Alat ini menggunakan Arduino Uno sebagai mikrokontroler untuk memantau atau memproses data yang dihasilkan panel surya. Sensor yang digunakan adalah sensor tegangan, sensor arus dan sensor suhu. Data yang dihasikan akan secara otomatis tersimpan pada SD Card. Data yang dihasilkan dan disimpan pada SD Card akan diubah menggunakan aplikasi PLX-DAQ agar dapat dibaca dan ditampilkan dalam bentuk tabel dan grafik. Sementara, Panel surya yang digunakan dalam penelitian ini memiliki kapasitas sebesar 100 Wp. Agar diperoleh arus maksimal maka digunakan beban sebesar 6 Watt. Sedangkan, kapasitas aki yang digunakan adalah 5 Ah. Waktu yang dihasilkan selama proses pengecasan aki dibandingkan dengan daya yang dihasilkan oleh panel surya adalah 4,43 jam. Hasilnya, dalam keadaan aki penuh dapat menyuplai energi listrik selama 10 jam dengan beban 6 Watt.

Download Full-text