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Journal articles on the topic 'Arduino and sensors'

Author: Grafiati
Published: 5 June 2025
Last updated: 15 July 2025

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1

Komarizadehasl, Seyedmilad, Behnam Mobaraki, Haiying Ma, Jose-Antonio Lozano-Galant, and Jose Turmo. "Low-Cost Sensors Accuracy Study and Enhancement Strategy." Applied Sciences 12, no. 6 (2022): 3186. http://dx.doi.org/10.3390/app12063186.

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Today, low-cost sensors in various civil engineering sectors are gaining the attention of researchers due to their reduced production cost and their applicability to multiple nodes. Low-cost sensors also have the advantage of easily connecting to low-cost microcontrollers such as Arduino. A low-cost, reliable acquisition system based on Arduino technology can further reduce the price of data acquisition and monitoring, which can make long-term monitoring possible. This paper introduces a wireless Internet-based low-cost data acquisition system consisting of Raspberry Pi and several Arduinos as
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Islam, Md Sofiqul, Md Sahoriar Sunny, Jahangir Hossain Rabbi, Nazim Uddin Pritom, and Md Wasit Shaowkat. "Arduino Based Sun-Light Detection." International Journal of Engineering and Advanced Technology Studies 12, no. 2 (2024): 30–42. http://dx.doi.org/10.37745/ijeats.13/vol12n23042.

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This project outlines the development of a sunlight detection system using an Arduino microcontroller. The system utilizes Light-Dependent Resistors (LDRs) to measure sunlight intensity. The Arduino board processes the sensor data and determines the presence or absence of sunlight. This paper provides a concise overview of a project that leverages Arduino's capabilities to detect sunlight. The project uses LDRs, which are inexpensive and readily available sensors that respond to light by changing their resistance. By measuring the LDR's resistance values, the Arduino can gauge the ambient ligh
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Pratama, Shendy, Ahmad Taqwa, and Irma Salamah. "Palang Pintu Kereta Api Otomatis Berbasis Arduino." J-SAKTI (Jurnal Sains Komputer dan Informatika) 3, no. 2 (2019): 173. http://dx.doi.org/10.30645/j-sakti.v3i2.137.

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This automatic train doorstop is made by using two infrared sensors and the sensor's piezeotronic sensor will be controlled by Arduino, this sensor will be useful if it detects the arrival of a train, if the train has passed this sensor then automatically the doorstop will be closed, when the train passes one more sensor then the doorstop will open automatically. For information to the community that there will be a train passing, it must be equipped with a bazzer and other indicator lights. With this automatic doorstop, the level of accident at the railroad crossing will decrease.
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Kumar, G. Pavan. "Speed Sensing Machine using Arduino." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 4394–401. http://dx.doi.org/10.22214/ijraset.2021.36064.

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There are certain rules that some authorities have introduced in case of violation of fastmoving vehicles. Most importantly determine any country regulation on certain roads that is, you will be breaking the law if the speed of your car exceeds this the limit. IR sensors are a large part of a project that detects car speed. Generally, you will be able to use set up IR Sensors on many ways but during this project, we used 2 IR Sensors models and set them 10cm apart. When the moving vehicle reaches the main sensor, the IR Sensor is activated. From this moment on, the timer has been started and c
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Bambulkar, Pratik. "Arduino Based Temperature Measurement System." International Journal for Research in Applied Science and Engineering Technology 13, no. 4 (2025): 6092–95. https://doi.org/10.22214/ijraset.2025.69440.

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This paper presents an Arduino-based temperature measurement system utilizing the MLX90614 infrared sensor and the DS18B20 digital temperature sensor. The system integrates both sensors to provide precise temperature monitoring for industrial and environmental applications. The MLX90614 allows for non-contact temperature measurement, while the DS18B20 provides accurate contact-based readings. The Arduino microcontroller processes data from both sensors and displays results on an LCD. The system is designed to be low-cost, user-friendly, and scalable, offering reliable and accurate temperature
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Swapna, A., and P. .Rajeswari. "Smart Traffic Management System Using Arduino and Sound Sensor." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 04 (2025): 1–9. https://doi.org/10.55041/ijsrem44455.

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Even today in some places the traffic drivers are still dependent on the traffic police to control the traffic based on the traffic density. Their had been a lot of research for controlling the traffic automatically like using image processing technique, IR sensors, laser sensors. These are cost efficient and are complex. So in order to avoid the traffic congestion we use Arduino and ultrasonic sensor which is simple and less cost. Ultrasonic sensor is a type of sensor, it measures the distance of an object with the help of transducer and receiver. Arduino is referred as a microcontroller. It
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Ma, Naing, and Ni San Hlaing Ni. "Arduino Based Smart Home Automation System." International Journal of Trend in Scientific Research and Development 3, no. 4 (2019): 276–80. https://doi.org/10.31142/ijtsrd23719.

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This paper presents the design and prototype implementation of the automation system that can be used two Arduino Nano with sensors. To demonstrate the effectiveness of this system, the devices such as LDR, temperature sensor, smoke sensor and motion sensor have been integrated with the automation system. In addition, the GSM and RFID modules are also used for security system. The functions of the sensors are to monitor and control the light, the room temperature and alarms. The main goal of the security system is GSM which is used to send the SMS alerts to the owner. Two Arduino Nano control
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Maranni, Ana Carolina, Robert Rogger de Lima, Diogo Duarte dos Reis, and Alem-Mar B. Goncalves. "Exploring Torricelli's theorem with Arduino." Journal of Experimental Techniques and Instrumentation 4, no. 04 (2021): 22–28. http://dx.doi.org/10.30609/jeti.v4i04.13174.

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We explore the dynamics of the water in a PVC pipe during the drain using two independent sensors simultaneously. We track the height of the water column and the discharge velocity of the water through the hole made in the lower part of the pipe. The ultrasonic distance sensor and the flow meter used as sensors were controlled by an Arduíno board. The acquired data follows the theoretical models but, with a coefficient of discharge smaller than 1.
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Prameela, Nikku, Myadam Poojitha, G. Sai Kiran, and R. Dharani. "Innovative Arduino Accident Prevention Technology." International Journal for Research in Applied Science and Engineering Technology 12, no. 5 (2024): 5851–54. http://dx.doi.org/10.22214/ijraset.2024.63007.

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Abstract: This paper proposes developing a system aimed at enhancing vehicle security and preventing unauthorized occupation. In situations where the driver may be less aware, such as when those are fatigued or under the influence, it can be challenging to maintain vigilance over one's own safety. By equipping all vehicles with an automated system that provides drivers with a high level of protection and alerts, we can significantly improve overall safety. This system includes an alcohol sensor and an eye blinking sensor installed within the vehicles. Upon starting the engine, these sensors au
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YAN ILMAS PUIMERA and Danang Danang. "RANCANG BANGUN ALAT PENYORTIRAN BARANG OTOMATIS BERBASIS ARDUINO PADA PT WAHANA PRESTASI LOGISTIK SEMARANG." Elkom : Jurnal Elektronika dan Komputer 11, no. 1 (2018): 38–44. http://dx.doi.org/10.51903/elkom.v11i1.114.

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The purpose of this research is to design goods sorting equipment automatically using ultrasonic sensors, load cell sensors. A valid arduino-based servo motor so that the prototype product sorting device automatically uses ultrasonic sensors and arduino-based load cell sensors can be received by PT Wahana Prestasi Logistik Semarang. The method used in this research is the Research and Development (R&D from Borg and Gall) research method. This research discusses about building a sorting device automatically using ultrasonic sensors, load cell sensors, servo motors, conveyors and arduino. Th
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Ritter, Greice Scherer, Eliezer Oliveira Cavalheiro, Ronaldo Barcelos e. Silva, Leonardo Da Rosa Schmidt, and Silvana Maldaner. "Medidas de temperatura em ambiente interno usando a Plataforma Arduino." Ciência e Natura 42 (February 7, 2020): 35. http://dx.doi.org/10.5902/2179460x40637.

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The paper presents the results of a study with temperature measurements using low cost sensors connected to an Arduino microcontroller. To perform the study, three sensors widely used for monitoring environmental conditions with Arduino. The selected sensors were the LM35DZ (analog sensor) and DHT11 and DHT22 (digital sensors). The LM35DZ sensor is a sensor known to be an analog sensor that has linear temperature response with voltage. The DHT11 sensor measures temperature and humidity simultaneously. To measure temperature the DHT11 sensor uses a temperature-sensitive resistor and has a measu
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Rajeswari, Pappala. "Smart Traffic Management System Using Arduino." INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 04 (2025): 1–9. https://doi.org/10.55041/ijsrem45567.

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Abstract - This paper presents a Smart Traffic Management System designed to alleviate traffic congestion in urban areas. The system utilizes Arduino microcontrollers, IR sensors, sound sensors, and LCDs to dynamically control traffic signals based on real-time traffic density and to prioritize emergency vehicles. The proposed system offers a cost-effective, adaptable, and efficient solution to traditional traffic management, aimed at reducing delays, improving safety, and minimizing environmental impact Key Words: Smart Traffic Management System, Arduino, IR Sensor, Sound Sensor, Emergency Ve
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Muhammad Ainun Najib, Adam Syuhada, Wahyu Dika Irfianton, and Sulartopo Sulartopo. "Sistem Deteksi Kebakaran Menggunakan Esp32 Dan Arduino." Seminar Nasional Teknologi dan Multidisiplin Ilmu (SEMNASTEKMU) 3, no. 1 (2023): 211–18. http://dx.doi.org/10.51903/semnastekmu.v3i1.216.

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,. Fire disasters are disasters that occur more often than other disasters such as floods, landslides, earthquakes or tsunamis. This disaster can happen at any time and no one knows for sure when this disaster will come. The impact of a fire disaster is not only material but can result in the loss of human life. Factors that cause fire disasters often occur due to human negligence and fires often occur in houses where the occupants are abandoned. The research carried out this time focuses on creating a fire detection system using ESP32 and Arduino. The system uses three sensors, namely a tempe
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Mane, Isha. "Multi-Purpose Tracker Robot." International Journal for Research in Applied Science and Engineering Technology 12, no. 4 (2024): 312–24. http://dx.doi.org/10.22214/ijraset.2024.59676.

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Abstract: This paper introduces a multi-purpose tracking robot designed with Arduino, ultrasonic, infrared sensors, and motor drivers. The robot is capable of performing diverse tasks such as obstacle avoidance, line following, and object tracking. Its hardware comprises an Arduino Uno microcontroller, ultrasonic sensors for distance measurement, infrared sensors for line detection and obstacle avoidance, and motor drivers for controlling DC motors. The software, developed using Arduino IDE, includes algorithms for sensor data processing, decision-making logic, and motor control. By implementi
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Nabil Radityo B.P, Kinanti Ayu Hasanah, Darryl Endra Zachary, Adli Ahmad Hazimulfikri, Akila Shina Kusumaningrum, and Aliya Rusyda Muthmainah. "Perancangan Prototype Tirai Hujan Otomatis Berbasis Arduino." TEMATIK 11, no. 1 (2024): 122–27. http://dx.doi.org/10.38204/tematik.v11i1.1919.

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Sensors are an important element in the automation process. The automation process itself is one of the important concepts in smart living, which allows us to live more comfortably with the help of certain technological devices, which generally use sensors. The combination of sensors with microcontrollers can help us do a job automatically. One of them is to close the curtains automatically in case of rain. This process can be done by connecting a sensor to detect rainwater or a raindrop sensor, with an Arduino microcontroller, and a motor to move the curtain. This research aims to design an a
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H, Mr Vinay Kumar, K. Uma, Pallavi S. Kyama, Vishnavi M. M, and Sangeetha Bai. "Lora Based Tree Poaching Detector using Arduino." International Journal for Research in Applied Science and Engineering Technology 11, no. 4 (2023): 4472–74. http://dx.doi.org/10.22214/ijraset.2023.51298.

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Abstract: These days there are numerous occurrences about pirating of trees like sandal, pinewood and so forth. These trees are in all respects exorbitant. They are utilized in the restorative sciences, beauty care products. To confine their sneaking and to spare timberlands around the world some preventive estimates should be conveyed. We have built up a framework which can be utilized to confine pirating. The structure framework utilizes three sensors PIR motion detector sensor, sound detection sensor, vibration sensor module. information created from these sensors is constantly checked with
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Akansha, Gaur, and Gaur Purvi. "A DIY Arduino Obstacle Avoidiong Car." Journal of Advancement in Electronics Design 7, no. 1 (2024): 22–27. https://doi.org/10.5281/zenodo.10897109.

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<em>The design and construction of a dry Arduino obstacle-avoiding car, a small, self-contained robotic vehicle that can navigate its surroundings and avoid obstacles, are shown in this project. Using a motor control system for precise movement and ultrasonic sensors for real-time distance measurement, the system is constructed on the Arduino platform. The hardware setup consists of wheels, ultrasonic sensors, DC motors, and an Arduino microcontroller. In order to make intelligent decisions on how to move the car, the Arduino microcontroller analyses sensor data. The car can respond quickly an
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Yakob, Muhammad, Rachmad Almi Putra, Hendri Saputra, Miranda Miranda, and Fajriani Fajriani. "Design a System for Calculating the Number of People Passing Using the Arduino Uno Based PIR (Passive Infrared Receiver) Sensor." Jurnal Pendidikan Fisika 7, no. 3 (2019): 271–76. http://dx.doi.org/10.26618/jpf.v7i3.2098.

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This study aims to build a system of counting people in the center of the crowd. This system uses PIR sensors to detect human movements so that the number of people passing through these sensors can be counted. The design of this tool uses hardware and software. The hardware used is like Arduino, PIR sensors, and also LEDs, while software uses programs arranged to adjust commands that will be sent to hardware. This tool is made by using two PIR sensors, where the first sensor is the marker of the person entering and the second sensor as a marker of people coming out. When the first sensor dete
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Obulesu, B., B. Vasavi, C. Yogeswari, T. Sailaja, and M. Veda Samhitha. "Vehicle Monitoring System using Arduino." Journal of Control System and Control Instrumentation 8, no. 2 (2022): 1–8. http://dx.doi.org/10.46610/jocsaci.2022.v08i01.

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In Today’s world, transport is essential to the public and with the rise in population accidently increased in the vehicle usage, this leads to more accidents. Most of the accidents occur due to the consumption of alcohol, the speed of the vehicle exceeds, or when the driver felt drowsy. There are many sensors that are used to detect. In this project we are using the alcohol sensor and eye blink sensor. These sensors are connected to the Node MCU ESP8266. Node MCU ESP8266 has the inbuilt Wi-Fi. These are placed on the PCB. The speed of the vehicle slows down when it detects the abnormal condit
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Sai, Kunchala. "Automatic Street Lights Using Arduino." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 01 (2025): 1–9. https://doi.org/10.55041/ijsrem41047.

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- The increasing demand for energy-efficient solutions has led to innovative technologies like automatic street lighting systems. This research paper presents a comprehensive study and implementation of a cost-effective automatic street light system utilizing LEDs, ultrasonic sensors, 1k resistors, Arduino Uno, and jumper wires. The system operates by detecting vehicles using ultrasonic sensors, which triggers the LEDs to illuminate, thereby conserving energy when no vehicles are present. This paper discusses the design, working mechanism, advantages, challenges, and future applications of the
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Salim, Rana Ali. "Wheelchair Control Using Finger Gestures IoT-Based Arduino." Babylonian Journal of Internet of Things 2024 (November 25, 2024): 137–50. https://doi.org/10.58496/bjiot/2024/016.

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This paper presents the development of a wheelchair control system using Arduino and wireless finger gestures. The system incorporates various components such as Arduino Uno and Arduino Nano boards, ultrasonic and IR sensors, an LN298 motor driver module, motors, an IR flame/fire sensor, a buzzer, batteries, and HC12 wireless modules. The flex sensor is utilized to detect finger movements and gestures, while the ultrasonic and IR sensors provide obstacle detection capabilities. The Arduino boards process the sensor data and interpret the finger gestures, mapping them to specific commands for w
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Rananaware, Mrs C. D., Pasarge Sakshi, Vaishnavi Thorat, Tanmay Deshmukh, and Tanaya Shinde. "AUTOMATIC SPRINKLER SYSTEM USING ARDUINO." International Scientific Journal of Engineering and Management 03, no. 08 (2024): 1–15. http://dx.doi.org/10.55041/isjem02108.

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This report investigates the implementation and benefits of an Automatic Sprinkler System driven by the Arduino Uno microcontroller in agricultural irrigation. The primary aim is to elucidate the functionality and practicality of this automated system in enhancing water efficiency and crop productivity. Through accessible language and technical explanations, the report explores the system's design, operation, and integration with sensors for optimal performance. Emphasis is placed on the system's ability to provide precise watering, customizable scheduling, and water conservation, thereby addr
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Irwanto, Irwanto, Endi Permata, and Didik Aribowo. "Rancangan Prototype Alat Jemuran Otomatis Menggunakan Sensor Air Dan Sensor Cahaya Berbasis Mikrokontroller Arduino." JTEV (Jurnal Teknik Elektro dan Vokasional) 5, no. 1.1 (2019): 133. http://dx.doi.org/10.24036/jtev.v5i1.1.106294.

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The development of science and technology has experienced rapid development, so as to encourage people to try to overcome all the problems that arise around them and ease the work that is around the environment. One of the technologies developed at the moment is the Arduino microcontroller. Design of Automatic Clothesline Using Water Sensor and Light Sensor, Based on Arduino Microcontroller. Based on the problems that are often experienced by boarding children or families when leaving clothesline at home. Rain or bad weather until now has become a major problem for people who have clothesline,
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Kakade, Neha. "Human Following Robot Using Arduino." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 03 (2025): 1–9. https://doi.org/10.55041/ijsrem42165.

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This project focuses on the development of a human-following robot using an Arduino-based platform. The robot utilizes ultrasonic sensors, infrared sensors, and a servo motor to detect and follow a human within a defined range. The system operates through a combination of real-time sensor data processing and simple algorithms implemented on the Arduino microcontroller. The ultrasonic sensors measure the distance between the robot and the human, while infrared sensors help in detecting the movement and direction of the human. Based on the inputs received, the robot adjusts its movement to follo
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Narula, Mandeep Singh, Amulya Ayush, and Madhav Kumar. "Advanced Traffic Light Controller using FPGA and ARDUINO." June 2024 6, no. 2 (2024): 149–64. http://dx.doi.org/10.36548/jismac.2024.2.006.

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This study presents a novel approach to develop a traffic light controller using FPGA and Arduino platforms. The objective is to design a robust, adaptable, and efficient traffic management system. Methodology involves hardware integration of FPGA for real-time processing and Arduino for interfacing with sensors and actuators. The proposed system utilizes FPGA's parallel processing capabilities for rapid decision-making and Arduino's flexibility for sensor data acquisition and actuator control. Performance evaluation includes simulation and real-world testing to assess reliability, response ti
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Zamfir, E. M., Miruna Avram, M. Radu, C. Stănescu, and G. Preduşcă. "Thermal Scanning System Using Arduino Nano." Scientific Bulletin of Electrical Engineering Faculty 23, no. 1 (2023): 64–71. http://dx.doi.org/10.2478/sbeef-2023-0011.

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Abstract The paper presents the study and implementation of a thermal scanning system that collects and transmits in real time the thermal data of scanned objects for their constant monitoring using an infrared temperature sensor and an Arduino Nano board. The application is made with the Arduino IDE, with the help of which the control of the Arduino board, sensors, screen, and LEDs connected to the platform is conducted. The sensors create the overall image of the thermal scan and send it to the Liquid-Crystal Display Thin-Film Transistor (LCD TFT) screen, and if an anomaly occurs, the red LE
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Hameed, Bilal Hashim, Anmar Yahya Taher, Raed Khalid Ibrahim, Adnan Hussein Ali, and Yasser Adnan Hussein. "Based on mesh sensor network: design and implementation of security monitoring system with Bluetooth technology." Indonesian Journal of Electrical Engineering and Computer Science 26, no. 3 (2022): 1781. http://dx.doi.org/10.11591/ijeecs.v26.i3.pp1781-1790.

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One of the most &lt;span&gt;critical aspects to consider in wireless sensor networks is security, particularly in internet of things (IoT) implementations. Sensor network applications had risen in the past 5 years since these networks have been used in various parts of life (smart residential and commercial buildings, medical, and agriculture). In this study, we provide a novel network of sensors based on the Bluetooth network that may be used to protect commercial buildings. The Bluetooth type HC 06 was chosen since it has a low energy consumption and a communication range of 100 meters. Such
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Hussein, Nadia Mahmoud, Yasmin Makki Mohialden, and Saba Abdulbaqi Salman. "Impact of IoT-Based Environmental Monitoring on Lab Safety and Sustainability." Babylonian Journal of Internet of Things 2024 (March 1, 2024): 16–26. http://dx.doi.org/10.58496/bjiot/2024/003.

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Several internal and external dangers might threaten a laboratory, the institution, and the public if not addressed properly. These hazards are addressed by our extensive laboratory monitoring system. This device detects elevated temperatures, gas leaks, fires, and solution pH. Elements of this system include an Esp32 microcontroller, LCD, Arduino Uno, mq2 gas sensor, DS18B20 temperature sensor, flame sensor, relay, water pump, and pH sensor for acidity measurement. The Arduino IDE controls sensors. Once the temperature reaches 50 degrees Celsius, an alarm, red LED, and mobile phone notificati
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Yong, Zhi Jiang, Wai Kit Wong, Thu Soe Min, and Eng Kiong Wong. "AUTOMATIC SOLAR-POWERED PLANT WATERING SYSTEM FOR HOME GARDENING." ICTACT Journal on Microelectronics 10, no. 2 (2024): 1763–68. https://doi.org/10.21917/ijme.2024.0305.

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The article covers the development of an automated solar-powered plant watering system that will help home gardeners who struggle with locating sufficient time to irrigate their plants. The system monitors the surrounding plantation and the state of the soil beneath the plants using DHT11 humidity temperature sensors and soil moisture sensors. Utilising the Arduino IDE programme, the Arduino Uno R3 (Atmega 328p) receives the readings from these sensors to determine the state of the plant. In order to determine if the plant is receiving enough water and to regulate the water pump to irrigate it
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Adiati, Rima Fitria, Astridea Salwa Haniyah, Agus Kartono, and Heriyanto Syafutra. "DESIGN OF AN AUTOMATIC PENDULUM VELOCITY MEASURING DEVICE USING LIGHT SENSORS." Indonesian Physical Review 8, no. 1 (2024): 150–61. https://doi.org/10.29303/ipr.v8i1.404.

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The instantaneous velocity of an object is the rate of change of its position over an infinitesimally small-time interval, making direct measurement with tools like stopwatches impractical. Using two LDR sensors paired with an Arduino, it is possible to measure such small-time intervals effectively. Understanding the maximum velocity of a mathematical pendulum is critical for distinguishing between harmonic and non-harmonic oscillations. To validate the accuracy of the sensor-Arduino system, several experiments were conducted, including comparisons between Arduino measurements and those obtain
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Ma, Naing, Nwe Oo Nwe, and Thwe Oo May. "Smart Blind Walking Stick Using Arduino." International Journal of Trend in Scientific Research and Development 3, no. 5 (2019): 1156–59. https://doi.org/10.5281/zenodo.3590573.

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This system is based on sensors and microcontroller. The features are to detect the obstacle for collision avoidance and it detects the object in directions left, right, down and front. The system is composed of the ultrasonic sensor, IR sensor and Arduino Mega 2560. It has a low cost and lightweight system design. By using these three items, it senses the distance with sensors and the blind stick frame is designed. And then send distance data to Arduino mega2560 controller. In emergency situations, the blind walker knows the distance or safe area for themselves. Ma Naing | Nwe Nwe Oo | May Th
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Sen, Arko, Surajit Mandal, Ivy Majumdar, Agrika Gupta, and Ankit Banerjee. "Factory Monitoring and Alert System." International Journal for Research in Applied Science and Engineering Technology 11, no. 1 (2023): 1712–17. http://dx.doi.org/10.22214/ijraset.2023.48913.

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Abstract: The basic idea of our project is to make a Monitoring and Alert System using Embedded Systems and IOT. Our project deals with various kinds of sensors (like temperature sensors, gas sensors, etc.) and other peripherals along with an Arduino UNO Microcontroller and Wi-Fi module. Here all these sensors will collect data from the surrounding, and send it to the Arduino which will further send it to a website and will also send an alert if any sort of unwanted conditions is observed. Monitoring all the sensor data remotely with the help of Arduino UNO via the Internet of Things is the ma
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Anantajaya, I. M. R. A., I. N. S. Kumara, and Y. Divayana. "REVIEW APLIKASI SENSOR PADA SISTEM MONITORING DAN KONTROL BERBASIS MIKROKONTROLER ARDUINO." Jurnal SPEKTRUM 8, no. 4 (2022): 171. http://dx.doi.org/10.24843/spektrum.2021.v08.i04.p20.

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Arduino microcontrollers have been widely used in research and society. The Arduino isequipped with one or more physical sensors to convert physical quantities into electrical signalsthat can be processed by the microcontroller. This paper reviews sensors, types of Arduino, andtheir application as a monitoring system. Data were obtained from platforms discussing onlineArduino projects, scientific articles, electronic/micro-electronic component manufacturer sites,and other reliable sources. The results show that the sensors that are commonly used includetemperature and humidity sensors DHT11, D
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Yafis, Balqis, and Rahmat ;. "Designing Arduino-Based Sluice Control System With Self-Check Sensor Feature." JURNAL TIKA 6, no. 03 (2021): 205–12. http://dx.doi.org/10.51179/tika.v6i03.661.

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The use of Arduino-Based floodgates aims to address the issue of flooding. The goal of this research was to create a system that could monitor water levels and control floodgatesUltrasonic sensor was used to measure water level, as the water level becomes the indicator to open and close the floodgates. The ultrasonic sensor is mounted on the dam and measures the distance between the water’s surface and the sensor transmitter. The results of the measurement of the water level are used to control the floodgates. Sensor measurement results are not always valid, given the age of the sensor and the
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K, Jothimani, Thangamani S, Kiruthika D, and Arun K. "Residence Automation System Using Internet of Things." Webology 18, no. 05 (2021): 1204–11. http://dx.doi.org/10.14704/web/v18si05/web18301.

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Home automation using Internet of Things is full of automation and the human being’s life is getting easier as almost everything is systematic by replacing the conventional/manual systems. Recent days, the internet is the mixed part of every human life to gather the knowledge of technology. Internet of things provides a source the devices to connect, sensed by sensors and controlled by remote across a grid infrastructure. Various kind of sensors are designed to meet the need of Home automation such as flame sensor, gas sensor, touch sensor, soil moisture sensor, Infrared sensor where it is con
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Herida, M. Zikri, Muhammad Idkham, and Mustaqimah Mustaqimah. "Perancangan Perangkat Keras Alat Pengusir Hama Burung Menggunakan Sensor Ultrasonik Berbasis Arduino Uno." Jurnal Ilmiah Mahasiswa Pertanian 7, no. 4 (2022): 945–53. http://dx.doi.org/10.17969/jimfp.v7i4.22358.

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Abstrak. Melihat perkembangan teknologi yang semakin canggih, maka diperlukan alat agar dapat memudahkan para petani dalam mengatasi serangan dari hama burung. Adapun alat pengusir hama burung ini menggunakan arduino uno sebagai pusat sistem kontrol, sensor ultrasonik sebagai pembacaan objek serta speaker mini dengan output suara burung elang sebagai pengusir yang diharapkan dapat berfungsi dengan sangat baik. Penelitian ini ditujukan agar dapat merancang perangkat keras alat pengusir hama burung dengan menggunakan sensor ultrasonik berbasis arduino uno. Metode pemrograman alat ini berdasarkan
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Galley, Ngawang, Tashi Yangzom, Ugyen Tshering, and Kamal K. Chapagai. "Wireless Sensor Network Based Landslide Detection and Early Warning System." Zorig Melong | A Technical Journal of Science, Engineering and Technology 3, no. 1 (2017): 39–46. https://doi.org/10.17102/zmv3.i1.006.

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The journal is based on a landslide early warning system using a wireless sensor network. A brief study on landslides and their types was conducted as part of understanding the system itself. This research includes the construction of a wireless data connection using sensors, ZigBee, and a microcontroller. Three sensors—temperature, soil moisture, and angle sensor—are connected to the Arduino UNO processor for data collection. The data collected by the Arduino is then transmitted via ZigBee. The information received at the base station is displayed on an LCD for real-time monitoring.
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Santos, Fernando Ferreira Lima dos, Leticia Cardoso Madureira Tavares, Guilherme de Moura Araújo, et al. "CONFIDENCE ANALYSIS AND CALIBRATION OF A FC-28 SOIL MOISTURE SENSOR MOUNTED ON A MICROCONTROLLER PLATFORM." Nativa 9, no. 1 (2021): 123–28. http://dx.doi.org/10.31413/nativa.v9i1.9152.

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Nowadays, the global water crisis poses a great challenge to humanity and a risk to be managed by future generations. In order to use this resource consciously, it is known in the area of agricultural irrigation the need to evaluate the amount of water to be used. Among the soil moisture content determination methods, sensors, coupled to a programmable logic controller, emerge as an alternative to conventional laboratory methods, making the procedure faster and less labor intensive. In this sense, the present work aimed to evaluate the reliability and precision of a low-cost sensor to determin
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Babu, Dr K. Ramesh. "Automatic Car Parking with Arduino, LDR Sensor." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 2238–48. http://dx.doi.org/10.22214/ijraset.2021.35474.

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Now days it is very important to save the time, money in terms of travelling and parking too. If any one goes to the shopping, people didn’t know, is there any space to the vehicle parking or not,in such a cases to save the public time, automatic car parking helps. Working principle is depends on the sensors which is already arranged in the parking area and LDR sensor which is at the entrance of car parking. It’s all manage with LDR sensors and Arduino micro controller .the simulated results with proteus software pursued .
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Srinivas, L., J. Bhavan, K. Janakiram, M. Rupasri, and A. B. Chandrika. "Arduino Based Traffic Monitoring and Controlling System." International Journal for Modern Trends in Science and Technology 6, no. 6 (2020): 104–7. http://dx.doi.org/10.46501/ijmtst060622.

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Nowadays, controlling the traffic becomes major issue because of rapid increase in automobiles and also because of large time delays between traffic lights.to optimise this problem we have made a frame work for an intelligent traffic control system. Sometimes higher traffic density at one side of the junction demands longer green time as compared to standard allotment time we, therefore propose here a mechanism in which the time period of green light and red light is assigned on the basis of the density of the traffic present at that time . Once the density is calculated ,the glowing time of a
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Dr.P.Aravind, D.Benitorichardson, G.K.DharsanPrabu, R.Lokesh, and R.Akilan. "Automatic Irrigation System using Arduino." International Journal of Multidisciplinary Research Transactions 4, no. 4 (2022): 110–17. https://doi.org/10.5281/zenodo.6449193.

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Now a days its a challenge to improve development of plant in respect of its growth and to reduce costs which leads to an innovative idea of using an automated irrigation system which will further help in better management of water and human resources .An automated irrigation system have been developed using sensors technology with Arduino to efficiently utilize water for irrigation purpose. The system has soil moisture sensor inserted into the soil of the plants and a water level sensor placed in a water container from where water will be pumped to plants for irrigation.
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Sujin, J. S., N. Gandhiraj, D. Selvakumar, and Satheesh S. Kumar. "Public E-Health Network System Using Arduino Controller." Journal of Computational and Theoretical Nanoscience 16, no. 2 (2019): 544–49. http://dx.doi.org/10.1166/jctn.2019.7766.

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An E-health Multifunctional system is proposed for people in all age category in this work. Simply, the different sensors are fixed on a coat. When the coatis worn by people, the sensors situated in the coat will be get activated. Then it will automatically examine various parameters about health and the same information send to monitor or website or mobile. This is used for personal and social use. An example is presented with different sensor signals and continuous Real time monitoring the health changes from the home. Sensors are embedded in to the atmosphere, it will give various changes w
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Kamal, Priyansh, Sudhir kumar Chaurasiya, Yash Saini, and Manoj Kumar Yadav. "A Smart Stick for Assisting Blind Peoples." International Journal for Research in Applied Science and Engineering Technology 10, no. 3 (2022): 2042–45. http://dx.doi.org/10.22214/ijraset.2022.41050.

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Abstract: In this paper, we introduce a smart stick system for assisting blind people. The smart stick comes as a proposed solution to enable visually impaired people to find difficulties in detecting obstacles and dangers in front of them during walking and to identify the world around. The system is designed to act like an artificial vision and alarm unit. The system consists of three sensors: ultrasonic sensor, water sensor, and heat flame sensor, microcontroller (Arduino Uno R3) to receive the sensor signals and process them into short pulses to the Arduino pins where buzzers and led bulb
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Lin, Zhiqi, Yuchan Xie, and Chaoshi Tu. "Acceleration Research Based on Arduino Motion." Physics Teacher 61, no. 1 (2023): 62–64. http://dx.doi.org/10.1119/5.0050398.

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Acceleration of moving objects is usually measured by photoelectric gates. In this paper, a method of acceleration measurement is proposed by pasting white card stock and black tape on a pulley and then using an Arduino to time the motion. This method only needs one photoelectric sensor to measure the acceleration. In contrast, using photoelectric gates to measure acceleration requires more than two photoelectric sensors, and the distance between the two photoelectric sensors has a great influence on the measurement. This distance is difficult to obtain accurately beyond the measurement range
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Dangrach, Meeral, Syed Mazhar Ali Shah, Agha Zain ul Abdin, Adeel Ali, and Mukhtiar Ahmed. "IOT Based Fire System." Journal of Applied Engineering & Technology (JAET) 5, no. 1 (2021): 19–30. http://dx.doi.org/10.55447/jaet.05.01.31.

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In the past few decades there were no facilities to protect the valuable things from fire, smoke and high temperature &amp; humidity automatically because the technology of that time was not advanced and the people usually do these things manually, and to avoid that or to minimize the damage caused by fire outbreak an IoT technology is used to control such a kind of risk. IoT is a modern system that consist of sensors and switches associated with a focal center (Arduino nano). In this project we have used flame sensor, gas sensors, temperature &amp;humidity sensor and Nod mcu with Arduino devi
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Azhari Zakri, Azriyenni, R. A. Rizka Qori Yuliani Putri, Syahru Romadoni, and Yesi Hasneli. "IoT-based Flex Sensor Gloves for Immobility Patients: A Prototype." International Journal on Advanced Science, Engineering and Information Technology 14, no. 3 (2024): 920–27. http://dx.doi.org/10.18517/ijaseit.14.3.19514.

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Immobility patients often experience difficulties in daily interactions, especially communicating with nurses or carers. This study designed a glove prototype installed with a tension sensor as a communication tool to help patients. The designed prototype, a cutting-edge innovation, is paired with five flexible sensors to make it easier for nurses to read the five-finger movement signals. This prototype is not just a tool but a lifeline, equipped with temperature and pulse sensors that provide real-time monitoring of the patient’s physical condition, enhancing patient safety. Testing of the fl
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Pramuda, Adi, Soka Hadiati, and Lia Angraeni. "Teknologi Pengeringan Makanan Tradisional Terakusisi Dengan Sensor Arduino Sebagai Alternatif Media Pembelajaran Fisika Yang Selaras Dengan Perkembangan Sistem Otomatisasi." Kappa Journal 8, no. 1 (2024): 46–50. https://doi.org/10.29408/kpj.v8i1.24758.

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The use of Arduino integrated sensors for appropriate technology in food processing in West Kalimantan is still very minimal. On the other hand, the quality of food ingredients that are specially dried using conventional drying is very far from health quality standards. This problem is actually very useful for developing more contextual physics education learning media. Moreover, various materials that are currently connected to concrete thermal measurements, for example, do not use measuring instruments that can actually be used in everyday life, especially in food processing technology, so t
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Parinduri, Ikhsan. "PROTOTYPE KARTU PINTAR KAMAR TIDUR MENGGUNAKAN SENSOR INFRARED DAN PHOTODIODA BERBASIS ARDUINO UNO." JURNAL TEKNOLOGI INFORMASI 1, no. 1 (2017): 101. http://dx.doi.org/10.36294/jurti.v1i1.110.

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Abstract - Smart cards, physically, are plastic cards the size of a credit card that can be filled with data for various purposes. A number of smart card uses include electronic cash payments, attendance systems, train and bus ticket subscription cards, toll road payments, and others. Smart Card Design for bedrooms using photodiode sensors and Arduino Uno based infrared sensors have succeeded well according to the procedure. The work system of the bedroom smart card series is very useful for efficient use of electricity in the household. The working system of photodiode sensors and infrared se
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Kholmatov, Oybek. "SOFT GAS DETECTION ON THE ARDUINO PLATFORM." American Journal of Engineering and Technology 5, no. 11 (2023): 47–55. http://dx.doi.org/10.37547/tajet/volume05issue11-08.

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This article soft gas detection on the Arduino platform is an affordable and accessible approach to monitoring the presence of specific gases in the environment. This article provides a comprehensive guide on implementing soft gas detection using Arduino, covering key aspects such as gas sensor selection, wiring, calibration, data interpretation, and control logic implementation. By leveraging the capabilities of Arduino boards and compatible gas sensors, users can create reliable gas detection systems for various applications. The article highlights the importance of proper sensor calibration
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Srijith, Biyyala. "Gesture Controlled Robot using Arduino." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 2758–65. http://dx.doi.org/10.22214/ijraset.2021.35555.

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A Gesture Controlled Car is a robot that can be controlled with a simple human touch. The user only needs to wear a touch device where the sensor is installed. The sensor will record the movement of the hand in a certain direction that will lead to the movement of the robot in the right places. The robot and the touch device are connected wirelessly with radio waves. The user can communicate with the robot in a very friendly way due to wireless communication. We can control the car using accelerometer sensors that are connected to our hand glove. Sensors are designed to replace the remote cont
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