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Rukmana, Susi Tarwianti Endra, Afrizal Mayub, and Rosane Medriati. "PROTOTYPE ALAT PENDETEKSI DAN PENGUSIR TIKUS PADA PEMBIBITAN KELAPA SAWIT BERBASIS ARDUINO UNO." Jurnal Kumparan Fisika 2, no. 1 (2019): 9–16. http://dx.doi.org/10.33369/jkf.2.1.9-16.
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Penelitian ini bertujuan untuk menghasilkan rancangan pengembangan prototype alat pendeteksi dan pengusir tikus pada pembibitan kelapa sawit berbasis Arduino Uno. Penelitian ini menggunakan metode penelitian Research and Development. Tahapan dalam penelitian ini meliputi: perencanaan, produksi dan evaluasi. Alat pendeteksi dan pengusir tikus pada pembibitan kelapa sawit ini tersusun oleh komponen-komponen elektronik, seperti sensor PIR sebagai pendeteksi pergerakan tikus, Arduino uno sebagai pengendali utama sistem dan penghubung modul GSM SIM900A. GSM SIM 900A berfungsi untuk alat komunikasi antara alat dengan user dalam satu arah. Alat pendeteksi dan pengusir tikus ini akan mengusir tikus dengan menggunakan suara yang dikeluarkan oleh speaker dari audio generator dengan frekuensi ultrasonik. Berdasarkan pengujian yang telah dilakukan pada alat yang dibuat, didapat bahwa prototype alat pendeteksi dan pengusir tikus pada pembiitan kelapa sawit berbasis Arduino Uno layak untuk digunakan untuk mendeteksi dan mengusir tikus. Kata kunci: sensor PIR, Arduio Uno, GSM SIM900A, Audio Generator, Research and Development (R&D)
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Pandiangan, Dosman Tonggotua. "Perancangan Sistem Alat Kontrol Lampu menggunakan Perintah SMS dengan Modul GSM SIM 800l berbasis Metode Arduino." JUKI : Jurnal Komputer dan Informatika 3, no. 2 (2021): 52–58. http://dx.doi.org/10.53842/juki.v3i2.61.
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Pemanfaatan teknologi untuk menjalankan fungsi peralatan dalam rumah tangga saat ini sudah banyak digunkaan dengan berbagai inovasinya. Salah satunya mikrokontroler seperti Arduino, ARMcortex-M0 yaitu board berbasis mikrokontroler pada ATMega 328. Pada penelitian ini akan dibahas pemanfaatan mikrokontroler dengan perintah short message untuk mengoperasikan saklar lampu. Ide penelitian ini dengan mengobservasi kebiasaan masyarakat dalam mengoperasikan saklar lampu pada waktu-waktu yang tidak tepat seperti lupa atau sedang bepergian. Mengkolaborasikan Arduino Uno dan GSM Sim800l sebagai penghubung antara perangkat dan handphone melalui sms akan bekerja berdasarkan perintah yang diberikan melalui perintah sms, module GSM Sim800l digunakan sebagai alat perintah sms yang diterima dari android dalam kendali alat mematikan dan menghidupkan lampu. Agar Module GSM Sim800l dalam Arduino uno dapat memberikan suatu instruksi untuk mengontrol lampu dari jarak jauh, Module GSM Sim800l atau pun Arduino uno tersebut memerlukan sebuah program yang di input kedalam Arduino uno R3 dalam aplikasi arduino uno, biasanya program dibuat dengan menggunakan bahasa Bahasa C. Dengan menggunakan program arduino dengan command “void”, maka pemograman mendapatkan banyak kemudahan dalam mengatur sistem kerja dari Arduino uno R3 atau arduino uno.
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Sintia, Wulantika, Dedy Hamdani, and Eko Risdianto. "Rancang Bangun Sistem Monitoring Kelembaban Tanah dan Suhu Udara Berbasis GSM SIM900A DAN ARDUINO UNO." Jurnal Kumparan Fisika 1, no. 2 (2018): 60–65. http://dx.doi.org/10.33369/jkf.1.2.60-65.
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Penelitian ini bertujuan untuk merancang dan membuat alat monitoring kelembaban tanah dan suhu udara pada tanaman berbasis GSM SIM900A dan Arduino Uno, serta mengukur kelembaban tanah dan suhu udara pada tanaman berbasis GSM SIM900A dan Arduino Uno. Penelitian ini menggunakan metode Research and Development. Adapun tahap pengembangan dalam penelitian ini meliputi perencanaan, produksi, dan evaluasi. Sistem monitoring kelembaban tanah dan suhu udara tersusun atas komponen-komponen elektronika, yaitu Arduino Uno sebagai pengendali sistem dari semua rangkaian, sensor DHT11 untuk mengukur suhu udara, GSM SIM900A untuk mengirimkan SMS kepada pemilik tanaman, dan soil moisture sensor untuk mengukur kelembaban tanah, dengan cara manancapkan probe pada tanah. Jika nilai yang dihasilkan sensor kecil berarti tanah dalam keadaan lembab, dan sebaliknya. Selanjutnya, dilakukan pengujian alat secara keseluruhan untuk mengetahui apakah alat berjalan sesuai dengan tujuan. Dari hasil pengujian telah terukur bahwa sistem monitoring kelembaban tanah dan suhu udara berbasis GSM SIM900A dan Arduino Uno dapat mendeteksi kelembaban tanah dan suhu udara kemudian sms gateway bekerja secara otomatis untuk mengirimkan SMS kepada pemilik tanaman.Kata kunci: Sensor DHT11, Soil Moisture sensor, Arduino Uno, dan GSM SIM900A
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Rao, Dr A. Hanumantha, K. Santosh Kumar, Sharana Basava G, K. Niveditha, and K. Divya Shri. "Automatic GSM Arduino based Energy Meter Reading." International Journal for Research in Applied Science and Engineering Technology 11, no. 4 (2023): 4394–97. http://dx.doi.org/10.22214/ijraset.2023.51295.
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Abstract: The main objective of the project is to develop a GSM Aurdino based energy meter reading system and load control through GSM. Electricity department sends employees to take meter reading every month, which is an expensive and time consuming job. The proposed project provides a convenient and efficient method to avoid this problem. The electricity department and the user can get the readings of the energy meter of consumers via SMS. The loads can also be controlled by the user of this system via GSM using this project. A Controller input is effectively in GSM Based to a digital energy meter that takes the reading from the energy meter and displays the same on an cell phone display. The reading of the aurdino based energy meter is also sent to the control room by GSM. This GSM can also receive commands from the Software to control the owners electrical loads. On receiving command it can switch ON/OFF the loads.
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Morallo, Narcisa T. "Vehicle tracker system design based on GSM and GPS interface using arduino as platform." Indonesian Journal of Electrical Engineering and Computer Science 23, no. 1 (2021): 258. http://dx.doi.org/10.11591/ijeecs.v23.i1.pp258-264.
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<p>Global positioning system (GPS) tracker is an innovative technology that is able to track the position of vehicle using global satellite system. In this paper, vehicle tracker system design that is derived from global positioning system and global system for mobile communication (GSM) interface with the use of Arduino Uno board as platform is proposed and presented. Technology in Arduino, GSM, and GPS is studied.GPS module receives the coordinates from the satellite. The GPS coordinates are sent to users in the form of SMS through SIM900A GSM module. By using Google Maps, the exact location of the vehicle can be located. Arduino microcontroller is the gateway to all GPS and GSM hardware and software communication in the system. The design represents that GSM and GPS interface with the use of Arduino Uno board as platform can really make vehicle tracking more efficient and convenient since it can work in any weather conditions and provide real-time location of objects. Automatic display of the coordinate’s geographical location in a map should be integrated in future design.</p>
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Morallo, Narcisa T. "Vehicle tracker system design based on GSM and GPS interface using arduino as platform." Indonesian Journal of Electrical Engineering and Computer Science 23, no. 1 (2021): 258–64. https://doi.org/10.11591/ijeecs.v23.i1.pp258-264.
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Global positioning system (GPS) tracker is an innovative technology that is able to track the position of vehicle using global satellite system. In this paper, vehicle tracker system design that is derived from global positioning system and global system for mobile communication (GSM) interface with the use of Arduino Uno board as platform is proposed and presented. Technology in Arduino, GSM, and GPS is studied.GPS module receives the coordinates from the satellite. The GPS coordinates are sent to users in the form of SMS through SIM900A GSM module. By using Google Maps, the exact location of the vehicle can be located. Arduino microcontroller is the gateway to all GPS and GSM hardware and software communication in the system. The design represents that GSM and GPS interface with the use of Arduino Uno board as platform can really make vehicle tracking more efficient and convenient since it can work in any weather conditions and provide real-time location of objects. Automatic display of the coordinate’s geographical location in a map should be integrated in future design.
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Lonare, Satyam. "Arduino Based Electric Meter using GSM." International Journal for Research in Applied Science and Engineering Technology 6, no. 3 (2018): 2382–84. http://dx.doi.org/10.22214/ijraset.2018.3547.
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Irawan, Yuda, Areta Sonya Rahajeng, Muhardi, and Refni Wahyuni. "PEMANFAATAN MODUL GSM DAN MODUL GPS PADA SISTEM KEAMANAN SEPEDA MOTOR MENGGUNAKAN SMARTPHONE BERBASIS ARDUINO UNO." JURNAL TEKNOLOGI DAN OPEN SOURCE 3, no. 1 (2020): 90–100. http://dx.doi.org/10.36378/jtos.v3i1.521.
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To facilitate control of lights in a home with a remote control so they invented a system of utilization of GSM Module Based Arduino Uno For Home Lighting Remote Control. The whole tool is divided into several parts, which consist of a Mobile, GSM SIM 800L module, arduino uno microcontroller, relay module, and lights. This tool works when Mobile sends an SMS (Short Message Service) containing commands to GSM SIM 800L, from GSM SIM 800L then to the microcontroller to process commands, from the microcontroller then to the relay module that works as a substitute for a switch that functions to turn on or turn off the lights which are desired.
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Makandar, Dr Aziz. "GSM Based SMS Alert Fire Alarm System." International Journal for Research in Applied Science and Engineering Technology 9, no. 11 (2021): 957–62. http://dx.doi.org/10.22214/ijraset.2021.38940.
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Abstract: The design of a fire alarm with Arduino-based system by means of GSM Module. The work purposely for house safety where the main point is to avoid the fire accidents occurred to the residents and the properties inside the house. In order to prevent losses accrued from fire accidents, various alarm systems have been developed such as smoke detectors, temperature sensor based systems etc. The design and implementation of a cost effective and reliable GSM based SMS Alert fire alarm system. The device will be able to monitor the temperature of the environment, the smoke level, send SMS alert to an inbuilt GSM number. When the system detects the temperature of 100C or more, it will immediately display an alert notification on LCD display and simultaneously sending an SMS alert to the users upon the high raise temperature in the house. This fire detection system consists of a smoke sensor, buzzer, LCD display and GSM module is interfaced with Arduino board. Keywords: Smoke sensor, GSM Module, Arduino, LED display, Buzzer
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Amir, Firman, Mardiansyah, and Ariyawan Sunardi. "Perancangan Sistem Komunikasi GSM pada Quadcopter Berbasis Arduino Uno R3." Techné : Jurnal Ilmiah Elektroteknika 22, no. 2 (2023): 197–206. http://dx.doi.org/10.31358/techne.v22i2.356.
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Menanggapi permasalahan yang ada dibidang industri serta kemajuan teknologi elektronika dan komunikasi yang semakin pesat sementara dalam dunia telekomunikasi itu sendiri banyak peningkatan jenis pesan dan komunikasi yang menggunakan GSM, pada era globalisasi dan informasi pada zaman sekarang pengiriman dan penerimaan pesan lebih banyak ragamnya. Mulai dari pesan teks, gambar, data, audio dan video, dari perkembangan pesan dari berbagai regenerasi tersebut. Dalam skripsi ini hanya menggunakan pesan teks SMS untuk pengendalian Quadcopter dengan berbasis arduino uno R3. Pada umumnya Quadcopter dikendalikan dengan remote control atau dengan sensor tertentu, tapi rancangan Quadcopter yang dikendalikan menggunakan modul GSM dengan mode SMS teks untuk perintah kerja dan yang akan dibaca oleh Arduino Uno R3 yang akan dikonversi kedalam bahasa C oleh Arduino Uno R3 itu sendiri melalui library GSM.
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Ashray, Korukanti, Kavali Poornoday, Yeravelli Manideep, and T. Venkat Rao. "Waste Spillover Monitoring System using Arduino." International Journal for Research in Applied Science and Engineering Technology 10, no. 3 (2022): 1050–55. http://dx.doi.org/10.22214/ijraset.2022.40797.
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Abstract: In recent years, urban development plans and the notion of smart cities have grown significantly. While the idea of smart cities is being addressed, there is a need for smart waste management. The waste spillover monitoring system is designed for smart buildings. Colleges, hospitals, and bus stops are just a few examples. The waste spillover monitoring system is developed to prevent waste mismanagement and promote community cleanliness. A waste spillover monitoring system is a novel concept in which an ordinary dustbin is made smart by employing ultrasonic sensors to detect garbage levels, display the information on an LCD, and send a message to the responsible department through a GSM modem, updating the state of the bin. When individuals bring trash to the waste bin while it is full, it prevents them from adding any more garbage to the bin by notifying them with a buzzer alert. The GSM and the peripheral sensors used are interfaced through the Arduino microcontroller. A graphical user interface (GUI) is also being created to track the needed garbage bin information for various locations. At the control room, messages received via GSM are shown on an LCD, and the authorized person informs the drivers to collect the waste on time. This will significantly aid in the monitoring of waste collection in order to maintain a smart, clean, and safe environment. Keywords: HC-SR04; Arduino Board; Graphical User Interface(GUI); Liquid Crystal Display(LCD); Global System for Mobile communication (GSM).
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Ma, May Thet Htar, and Hnin Yu Myaing Ma. "GSM Based Home Automation System using Arduino." International Journal of Trend in Scientific Research and Development 3, no. 5 (2019): 1666–69. https://doi.org/10.5281/zenodo.3591260.
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Home Automation System is used to control home appliances. With the use of computers and electronics technology electrical appliances can be controlled from any part of the world. Consequently, greater amount of energy will be saved and hence the natural resources. This can be achieved by using the mobile phone. This system is designed using Arduino UNO and GSM module. The electrical appliances are controlled by sending a text message from any mobile located in any part provided it has GSM connectivity. There are many existing Home Automation Systems on the world. But every system has its pros and cons. The proposed system is easy to implement and understand. Ma May Thet Htar | Ma Hnin Yu Myaing "GSM Based Home Automation System using Arduino" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26806.pdf
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PATEL, A. ASHRITHA. "Women Safety Device using Arduino, GPS, and GSM Modules." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 01 (2025): 1–9. https://doi.org/10.55041/ijsrem40916.
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In today's world, women's safety is a major worry. We suggest a safety device that uses Arduino, GPS, and GSM modules to give real-time tracking in order to solve this problem. By transmitting the women's current location to pre-registered contacts, this device protects women. The system is a vital instrument for personal safety because it is portable, user-friendly, and incredibly dependable. Keywords— GPS, GSM, Arduino, Women’s safety
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S, Kanagamalliga, Rajalingam S, Kannan A, and Karthikeyan M. "Biometric and IoT Integration for Secure and Remote Door Access Control Using Fingerprint Recognition and GSM Technology." E3S Web of Conferences 619 (2025): 03013. https://doi.org/10.1051/e3sconf/202561903013.
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The research focuses on improving the security and convenience of door access control systems through the integration of advanced fingerprint recognition technology with Arduino microcontrollers and the GSM module. The reliability and flexibility of Arduino, coupled with the GSM capabilities of SIM900, are utilized to create a robust and efficient solution. Fingerprints are captured and verified using a fingerprint sensor, ensuring precise and personalized access control. The Arduino board acts as the main controller, processing fingerprint data and enabling communication with the GSM module for remote operation. This innovative setup allows authorized users to remotely lock or unlock doors using their registered fingerprints. Key functionalities of the system include fingerprint enrollment, template matching, secure data transmission, and real-time status monitoring. During enrollment, fingerprints are registered and securely stored in the system’s database. Subsequent scans are matched against these stored templates to determine access. Secure and reliable communication is ensured through encrypted data transmission between the door lock system and users’ mobile devices, facilitated by the GSM module. By combining Arduino, fingerprint recognition, and GSM technology, the research provides an effective solution for enhancing door access control systems. The integration of biometric authentication with remote management features offers a secure and user-friendly method for access control, reducing the dependency on traditional keys or access cards. The research’s DIY and open-source approach encourages innovation and customization, promoting continuous improvement in access control technology within the maker community.
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Sujono, Sujono, and Mohamad Abdul Kafi. "RANCANG BANGUN KEAMANAN DAN STATER OTOMATIS BERBASIS ARDUINO." Exact Papers in Compilation (EPiC) 2, no. 2 (2020): 265–72. http://dx.doi.org/10.32764/epic.v2i2.320.
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Pencurian sepeda motor semakin meningkat. Beberapa kasus pencurian sepeda motor yang dilakukan dengan teknik tertentu saat sepeda motor berada di tempat parkir. Oleh karena itu perlu keamanan yang tinggi, dengan memanfaatkan suatu teknologi yang ada saat ini untuk mengontrol keamanan. Penelitian ini merancang sistem keamanan untuk sepeda motor menggunakan mikrokontroler arduino nano. Secara garis besar, desain sistem terdiri dari RFID, Modul Gsm 800L, arduino nan0, relay, stepdown dan smartphone. Sistem ini bekerja ketika ada getaran tinggi yang berasal dari motor, sinyal Gsm akan mengirimkan getaran ke output arduino nano dan kemudianmengirim perintah pemberitahuan kepada relay. Sehingga sepeda motor dapat menyala dari jarak jauh.
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T.L, Alumona, Oranugo C.O, and Eze C.E. "GSM Based Smart Security System Using Arduino." IJARCCE 8, no. 10 (2019): 32–42. http://dx.doi.org/10.17148/ijarcce.2019.81005.
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Reddy, V. Raveendra. "GSM Based Smart Energy Meter using Arduino." International Journal for Research in Applied Science and Engineering Technology 7, no. 3 (2019): 2073–80. http://dx.doi.org/10.22214/ijraset.2019.3384.
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SAI, G. BHANU PRASAD. "FIRE FIGHTING ROBOT WITH ALERT SMS." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 05 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem34264.
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The Arduino-based Fire Fighting Robot with SMS Alert System is a robotic system designed to detect and extinguish fires in indoor environments. The robot uses flame sensors to detect the presence of a fire. Once a fire is detected, the robot moves towards the source of the fire and sprays water to extinguish the flames. The robot is equipped with a GSM module that can send SMS messages to alert the user when a fire is detected. This allows for prompt action to be taken to minimize damage and save lives. The components of the robot include an Arduino board, motor drivers, sensors, and a GSM module. The software code is written in the Arduino IDE and controls the motors, reads sensor data, and communicates with the GSM module. The robot is tested and debugged to ensure that it functions correctly and safely in different scenarios. Overall, the Arduino-based Fire Fighting Robot with SMS Alert provides a reliable and efficient solution for fire detection and suppression with the added benefit of remote communication and control.
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Raghunath, Swapna, Meghana Sara, Nallapu Rashmitha, and Manisha Puneria. "Fire Fighting Robot with SMS Alert System." International Journal for Research in Applied Science and Engineering Technology 11, no. 11 (2023): 1353–57. http://dx.doi.org/10.22214/ijraset.2023.56767.
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Abstract: The Arduino-based Fire Fighting Robot with SMS Alert System is a robotic system designed to detect and extinguish fires in indoor environments. The robot uses flame sensors to detect the presence of a fire. Once a fire is detected, the robot moves towards the source of the fire and sprays water to extinguish the flames. The robot is equipped with a GSM module that can send SMS messages to alert the user when a fire is detected. This allows for prompt action to be taken to minimize damage and save lives. The components of the robot include an Arduino board, motor drivers, sensors, and a GSM module. The software code is written in the Arduino IDE and controls the motors, reads sensor data, and communicates with the GSM module. The robot is tested and debugged to ensure that it functions correctly and safely in different scenarios. Overall, the Arduino-based Fire Fighting Robot with SMS Alert provides a reliable and efficient solution for fire detection and suppression with the added benefit of remote communication and control.
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Ashtekar, S. B., Sagar Tekam, Jayant Sahare, Ritik Gokhe, Seemaran Raikwar, and Rakesh Ramteke. "Fingerprint and GSM Based Door Lock System." Journal of Optical Communication Electronics 9, no. 1 (2023): 18–22. http://dx.doi.org/10.46610/jooce.2023.v09i01.003.
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In this study, we used GSM and fingerprint technology to investigate the door locking and unlocking system. To keep your information, money, space and personal property from intruders. This paper provides fingerprint and GSM base door lock systems for SMS-based door lock control. ARDUINO microcontroller, GSM module, fingerprint module, keypad, display LCD, servo motor and buzzer are the components of this security system. The entire driver unit is under the control of an Arduino microcontroller. It serves as a means of communication. The GSM method for mobile alarm messages in case of failed password attempts. The password required for authentication is entered using a keypad module. If the password is entered incorrectly, an error message appears on the screen LCD. A message is sent to the registered user via the GSM module, and if there are people or security personnel nearby, the associated buzzer sounds to alert them.
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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 sensors and relays that monitor a defined location and take action based on specified parameters like ambient light, temperature, etc. The microcontroller will send SMS to the owner if the sensors detect an abnormality. In addition, door lock security is developed by RFID module. In this paper, the presents of GSM module security system make more secure and reliable. Ma Naing | Ni Ni San Hlaing "Arduino Based Smart Home Automation System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23719.pdf
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Ranjan, Prof Anjali. "ARDUINO BASED ALCOHOL SENSE ENGINE LOCK USING GPS & GSM." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 05 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem34942.
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This project introduces an innovative approach to improving road safety by developing an Arduino-based alcohol detection and engine lock system, integrated with GPS and GSM technologies. The main goal is to prevent driving under the influence of alcohol by disabling the vehicle's engine upon alcohol detection. The system employs an MQ-3 alcohol sensor to measure the driver's breath alcohol content. When alcohol is detected, the Arduino microcontroller processes the data from the sensor and activates the engine lock mechanism, thus preventing the vehicle from starting. This functionality is enhanced with GPS technology to provide precise location tracking of the vehicle. In the event of alcohol detection, the system utilizes the GSM module to send alerts to pre-configured contacts, supplying real-time information about the driver's condition and the vehicle's location. By incorporating GPS, the system ensures continuous location monitoring, adding an extra layer of security and enabling swift emergency response. The GSM module allows for immediate communication, dispatching SMS alerts to family members or authorities, thereby increasing the safety of both the driver and the public. This comprehensive solution aims to reduce incidents of drunk driving by leveraging Arduino for sensor interfacing and control, and combining it with GPS and GSM technologies for real-time tracking and communication. The proposed system is cost-effective, easy to implement, and scalable, offering a practical tool for enhancing road safety and saving lives. Key Words: Arduino Alcohol sensor, Engine lock, MQ- 3 sensor, GPS tracking, GSM module etc.
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Khin, Thandar Tun, Sandar Aung Aye, and Lwin Thant May. "GSM Based Fire Security System." International Journal of Trend in Scientific Research and Development 3, no. 5 (2019): 1686–90. https://doi.org/10.5281/zenodo.3591292.
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Telecommunication is a very important part of its life. This technology is used in a very sophisticated area like safety and security purpose. Using the GSM technology, telecommunication is conducive to save its life as well as households from fire accidents which have shown in this paper. In this paper, the overall circuit is constructed with six sections. The first section is power supply. The second section is temperature sensor and smoke sensor. The third section is Arduino. The fourth section is LCD display. The fifth section is fan, buzzer and water pump. The sixth section is GSM module. Temperature sensor is connected to the digital input pin of the Arduino and smoke sensor is connected to the analog input pin of the Arduino. When the temperature sensor detects heat and the smoke detector detects smoke the detectable measurement of smoke can be configured regarding the size and surroundings of the room , there is a LCD display which shows temperature and smoke data. When the temperature reach above 40°C and the smoke sensor had reached over 200ppm, the buzzer is ON, spray automatically water and send SMS. Khin Thandar Tun | Aye Sandar Aung | May Lwin Thant "GSM Based Fire Security System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd26697.pdf
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Zeeshan B,, Mohammed, Nandish C S,, Nayana B A,, and Nikhil Das D R,. "Collision Mitigation and Lighting Control System." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 04 (2025): 1–9. https://doi.org/10.55041/ijsrem43642.
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Collision mitigation system utilizes ultrasonic sensors to detect obstacles and warn the driver through an alert mechanism. Vibration and alcohol sensors assess driver impairment, triggering necessary safety measures, such as reducing vehicle speed or activating emergency alerts. The lighting control system dynamically adjusts headlights based on environmental conditions, ensuring optimal visibility. A GSM module facilitates emergency communication by sending notifications during critical situations. This project presents a Collision Mitigation and Lighting Control System, leveraging Arduino Uno ultrasonic sensors, vibration sensors, alcohol sensors, eye-blink sensors, buzzers, GSM modules, and Arduino-based programming. The system is designed to detect potential collisions, monitor driver alertness, and adjust vehicle lighting conditions accordingly. Keywords: Arduino IDE program software, Development board Arduino Uno, Communication devices, Sensors, Real-Time Data Processing, Embedded System, IoT-based monitoring, Emergency Alert System, Remote monitoring.
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Senthil, P. "Effective Monitoring of Temperature and Humidity in Real-Time Wireless Sensor Method of Processor and System Architecture." Asian Journal of Science and Applied Technology 7, no. 1 (2018): 36–43. http://dx.doi.org/10.51983/ajsat-2018.7.1.1020.
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Today, the place of the same word, “Analog Records” is in place for the work of WSN like it The system immune system for landing damage caused by analogue systems Storage in Memory. So it is that we have an excellent law completely automated Possible Accuracy More, such a comparison should be cheap as well as qualified transport. In this Paper introduces wireless sensor (WS) facts using communication software DHT11, Arduino Education At Bett 2017, SIM900A GSM module, sales tool and liquid crystal display (LCD). Heating system in experimental settings includes DHT11 transmission and use Ardino and SIM 900 GSM shield, Arduino, GSM shield, still in use displays a heating system for the LCD screen and thermal sensitive.
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Nurdjan, Nirwana, Irman Amri, and Razab Razab. "Sistem Monitoring Permukaan Penampungan Air Berbasis Arduino dan SMS Gateway." Insect (Informatics and Security): Jurnal Teknik Informatika 6, no. 2 (2021): 11–18. https://doi.org/10.33506/insect.v6i2.1659.
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Berdasarkan hasil analisis yang telah dilakukan peneliti, permukaan air padapenampungan Masjid Universitas Muhammadiyah Sorong adalah salah satu parameter yangperlu dimonitoring untuk mengetahui level air secara real time. Penelitian ini bertujuan untukmengembangkan prototype system monitoring level air dengan menggunakan stenlis batangansebagai pendeteksi yang diintergrasikan dengan arduino uno untuk mengukur level air. Alat danbahan yang digunakan yaitu: Arduino Uno 328P, stenlis batangan, modul GSM shield sebagaimedia pengirim dan penerima sms yang ditambahkan agar system dapat memberi informasimengenai level air hampir penuh dan air akan habis melalui pesan singkat dan memberiperingatan untuk menutup atau membuka keran air. Metode dan prosedur yang digunakanadalah, Perencanaan, Pengumpulan Bahan, Pembuatan Sistem Alat, Perancangan Hadware, danPembuatan program arduino dengan menggabungkan modul GSM Shield dan modul pendeteksi.Hasil dan Pembahasan dari penelitian yang didapat adalah stenlis batangan dapat membacalevel air dan modul GSM Shield dapat mengirimkan informasi data level air yang sudah dideteksioleh stenlis batangan, serta dapat menerima pesan singkat yang dikirimkan oleh operator seluler.
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O, Mahendar Singh Rajpurohit, K. Pradeep Raj K, Kabil Balan S, and Priya R. "Self Defence Torch Light using Arduino." International Journal of Engineering and Advanced Technology (IJEAT) 9, no. 4 (2020): 1–4. https://doi.org/10.35940/ijeat.C6033.049420.
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It’s observed that most of the crimes against women takes place during night-time. Only safety measure available for women during emergency is pepper spray which is often unconventional thus we came up with a solution for it. With the help of our high intensity torch light, women can flash it into the eyes of the person whom they suspect and since our pupil contract when exposed to bright light it causes loss of sight for a few seconds then that women could electrocute that person with the electrodes attached to it. This is an alternative to pepper spray since women can’t keep pepper spray in hand all the time while walking in streets or roads but can have a torch light with them and the suspect will misjudge it with an ordinary torch light. With the help of Arduino and SIM808 GSM/GPS the position of women is sent as message to their guardians. Apart from it the flashing of light is controlled by Arduino. This is only a safety measure and can help girls from being harassed but apart from it initiative must be taken from every Indian to make India a better place to live for every women.
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R N, Pushpa. "Review on Accident Detection and Alerting System." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem31814.
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This project aims to address the critical issue of individuals being left without assistance in the event of an accident while riding vehicle. With the implementation of an accident detection and alert system, this project seeks to provides solution to this problem. The system utilizes an Arduino, GPS Receiver, and GSM module to control the entire process. The GPS Receiver identifies the vehicle's direction, while the GSM module sends an SMS containing the directions and a link to Google Maps to the assigned contact. The system can detect accidents using a Vibration sensor. The microcontroller sends this information to the GSM module, which transmits the data, including the victim's precise location, to the assigned contact. The contact can then use the GPS MODEM to locate the victim and provide immediate assistance. The implementation of the Accident Detection and Alert System using Arduino is a highly effective solution, particularly in developing nations such as Nepal, India, and Bangladesh where the number of vehicles on the road is rapidly increasing. With the rise in vehicular accidents, fatalities have also been on the rise. This system is a valuable investment in ensuring the safety of drivers and passengers alike. Key Words: GSM module, GPS MODEM, Accident Detection, Arduino.
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Sufiyan, Md Abu. "Vehicle Surveillance System using ESP32." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 3722–25. http://dx.doi.org/10.22214/ijraset.2021.35763.
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The current project is the integration of design and realization of vehicle surveillance system using GSM, GPS and ESP32 modules. The project deals with the integration of these three modules and an arduino uno. This amalgamation gives rises to the vehicle surveillance system. A vehicle surveillance system is coordinated by GPS and it is controlled by the operator by giving the commands through GSM which acts as receiver and transmitter of the data. The project is divided into two modules of implementation i.e software and hardware. The software part consists of developing a code for the arduino which unites all the modules of the system. The hardware part consists of interfacing all the modules that are used in the system with the arduino.
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Patil, Ashvini. "Arduino Based Prepaid Energy Meter with Theft Alert." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 03 (2025): 1–9. https://doi.org/10.55041/ijsrem43320.
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This project presents the design and development of an Arduino-based prepaid energy meter with an integrated theft alert system. It offers a secure and efficient approach to monitoring electricity consumption while preventing unauthorized usage. The system employs a digital energy meter to record power consumption and a GSM module to transmit real-time alerts in case of tampering or energy theft. A prepaid model enables users to recharge their electricity balance and track their consumption through an LCD display, promoting transparency in energy usage. The Arduino Uno microcontroller serves as the system's core, handling energy data processing, credit deductions, and theft detection. When unauthorized activity is identified, the GSM module instantly notifies the user via mobile communication, allowing prompt action to mitigate potential losses. Designed for both residential and industrial applications, the system operates on a rechargeable battery, ensuring easy deployment. By utilizing open-source hardware like Arduino Uno, the proposed solution remains cost-effective, scalable, and adaptable for future advancements. This project highlights the potential of affordable technology in enhancing energy management, reducing theft, and improving electricity monitoring systems. Key Words: Prepaid Energy Meter, Arduino-Based System, Electricity Theft Detection, Real-Time Energy Monitoring, GSM-Based Alert System, Smart Energy Management.
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Feranita, Feranita, Ery Safrianti, and Yuli Sartika Tambunan. "Automatic Cat Breeding and Drinking Equipment via Mobile Network Monitoring." International Journal of Electrical, Energy and Power System Engineering 1, no. 2 (2018): 9–13. http://dx.doi.org/10.31258/ijeepse.1.2.9-13.
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This study aims to design a feeding and drinking tool for pet cats automatically based on SIM900A GSM Module. Design using GSM SIM900A, Arduino, RTC, load cell and Direct Current (DC) pump. This tool can be controlled to feed and drink the cat automatically at a distance. The working system of the tool consists of load cell 1, load cell 2 and water limit sensor which is an input result of measurement object which will be processed by arduino. Load cell 1 is used for measuring cat body weight, load cell 2 serves to measure cat feed weight and water limit function to enable and disable direct current pump. The pump will pump water to fill the cat drinking container if the container is empty. Data received by Arduino will be processed when the Real Time Clock (RTC) indicates the schedule of the cat’s feeder that has been set. Then the SIM900A GSM module will work sending short messages (SMS) to the mobile phone to inform the system has been working automatically feed the cat.
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Gining, R. A. JM, S. S. M. Fauzi, T. R. Razak, et al. "IoT Based Disabled Parking System (DiParkSys) v2.0 Arduino Uno." Jurnal Intelek 16, no. 1 (2021): 166–74. http://dx.doi.org/10.24191/ji.v16i1.377.
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The urbanization in the urban area can lead to many effects, and one of them is limited parking space. In the context of disabled parking spaces, many easily violate that allocated spaces without guilty. For the authorities to monitor the violation of the disabled parking spaces are quite challenging. That is, the authorities would still need to look out for the parking violation by manually observing and looking around, in other words, through their observation. The purpose of this study is to improve the current Disabled Parking System (DiParkSys) v2.0 by integrating it with GSM notification system. The GSM module assembled in DiParkSys will immediately notify authorities of any violation by giving the coordinate of the violated parking slot. The prototype was first designed using system visualization and schematic diagram. The integration between the alarm and GSM module was then validated using an integration test before the functionality of the prototype was tested using a Test Cases method.
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Gokulanathan, S., P. Manivasagam, N. Prabu, and T. Venkatesh. "GSM Based Water Quality Monitoring System Using Arduino." Shanlax International Journal of Arts, Science and Humanities 6, no. 4 (2019): 22–26. http://dx.doi.org/10.34293/sijash.v6i4.341.
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This paper investigates about water quality monitoring system through a wireless sensor network. Due to the rapid development and urbanization, the quality of water is getting degrade over year by year, and it leads to water-borne diseases, and it creates a bad impact. Water plays a vital role in our human society and India 65% of the drinking water comes from underground sources, so it is mandatory to check the quality of the water. In this model used to test the water samples and through the data it analyses the quality of the water. This paper delivers a power efficient, effective solution in the domain of water quality monitoring it also provides an alarm to a remote user, if there is any deviation of water quality parameters.
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Austin, Rachel, Fiona Lobo, and Swarnalatha Rajaguru. "GSM and Arduino Based Vital Sign Monitoring System." Open Biomedical Engineering Journal 15, no. 1 (2021): 78–89. http://dx.doi.org/10.2174/1874120702115010078.
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Aims: Analysis of the vital signs of patients can aid in early disease diagnosis and care. There are many illnesses which can be diagnosed and managed by monitoring this medical information periodically. Background: Detection of various early-stage medical diseases can be simply done by monitoring Human vital signs, as they show the standard body's essential functions, indicating the status of an individual's health condition. Objective: In many cases it so happens that patients do not receive appropriate medical treatment on time, as a result of which unexpected incidents happen due to ignorance of one’s health status. Since pulse rate and vital sign area unit are the foremost crucial parameters, an affordable device to detect such parameters is useful for human health. Methods: Photoplethysmography (PPG) is a photosensitive technique that measures difference in blood volume of the pulse (usually in the body's soft tissues) by specifically interfering with the differences in the photo-emitter's absorption, reflection, volume and dispersion of light, and then it is registered by the photoreceptor. Then, the PPG waveform reflects shifts in arterial blood supply. The waveform obtained with a pulse oximeter illuminates skin and processes variations in the absorption of light. Results: The embedded systems-Arduino, GSM module and the various sensors used in this research provide a simple monitoring method which does not require a smartphone or internet connectivity. Conclusion: This paper aims at illustrating the significance of constantly monitoring vital signs. The device proposed has been developed as an Arduino program that is straightforward and inexpensive, a conveyable system that acquires the vital signs data and sends a text message as warning messages during a health emergency.
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Patil, Snehal. "Prepaid Energy Meter Using Arduino and Gsm Module." International Journal for Research in Applied Science and Engineering Technology 7, no. 3 (2019): 991–92. http://dx.doi.org/10.22214/ijraset.2019.3175.
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Shanta, Sonwalkar, Gopashetty Sanket, Kagwade Shwetha, and Umarani Chandarkant. "Arduino Based Underground Cable Fault Detector using GSM." Journal of Advancement in Software Engineering and Testing 3, no. 2 (2020): 1–3. https://doi.org/10.5281/zenodo.3957214.
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The main objective of our project is to detection the exact location of the fault in the underground cable from the base station. Now a days in the urban cities overhead cables are not used only underground cables are used so when there is a fault in the underground cable we need to dig the whole cable line but by using our system we can find the exact location of the fault cable and dig that part and repair it. This system uses an Arduino kit, Relay switch, GSM modem and a 12v power supply, buzzer which alarms on the occurrence of the fault in the cable and A 16*2 LCD display used to display the location of the fault.
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Dr., M. Parameswari, Devika K., Gomathi J., Kowsalya Y., and Revathi K. "ADVANCED WOMEN SAFETY SYSTEM USING ARDUINO AND GSM." International Journal of Computational Research and Development (IJCRD) 6, no. 1 (2021): 12–14. https://doi.org/10.5281/zenodo.4733020.
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The world is becoming unsafe for women in all aspects. The crime against women are increasing at a higher rate. The employed women are feeling unsafe due to increasing crimes. This paper proposes a quick responding mechanism that helps women during trouble. When someone is going to harass, she can just press the button and the location information is sent as an SMS alert to few pre-defined numbers in terms of latitude and longitude. The controller used is ATMEGA328P. It is interfaced with a push button, a GPS module, a GSM modem and a LCD Display (16×2). If the switch is pressed, the controller can take the current location information from the GPS module and send those data to the predefined no. using a GSM modem. The program is developed in ‘C’ language. The purpose of this project is to feel safe the women’s.
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Aniket, B. Patil, R.Shinde Omkar, J. Lohar Pushpam, Shubham.B.Kumbhar, Patil S.S., and G.Warvante B. "Transmission Line Fault Detection Using GSM & Arduino Nano." Journal of Advancement in Electronics Design 7, no. 2 (2024): 28–38. https://doi.org/10.5281/zenodo.10996747.
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<em>In this project, we are going to design a transmission line monitoring and fault detection system for an overhead transmission line that is capable of monitoring transmission line load current and detecting all four types of faults in transmission line and finding their distance using GSM and display these results on LCD with alert message. Here we also use 4 relays to work as a circuit breaker that isolates or break the transmission line during the fault and a buzzer that gives an alarm for alert. There are total 4 possible cases in which first case is no fault. During the number fault situation firstly relays close the circuit and power is transmitted to the load through the transmission line. Here the load is consisting of red, green and blue LEDs. Then the current sensor starts taking readings. If there is no fault then all the values of the current is less than pickup current. Noted that here pickup current means the value of the current after which current is considered as fault current and relay will open and isolate the system. For example, we set the pickup current 5 ampere so if our load consumed less than five ampere there is no problem. But if our load consumed greater than or equal to 5 ampere due to any fault or overloading it considered as fault current and relay will open circuit breaker trip and isolate the system. So during no fault LCD displays no fault. The second case is single line to ground fault. So if we short line 1 red with ground wire at 8 KM to create a single line to ground fault. In this situation the system detect current in line 1 red wire’s is greater than pickup current. So relays break or isolate the transmission line and buzzer is on for an alert and LCD display type of fault. SMS will be sent on the authority mobile. The third case is double line to ground fault. So, if we short line red and line green with ground wire at 4 KM to create a double line to ground fault. In this situation the system detects current in line 1 red and current in line green is greater than the pickup current. So, relays break or isolate the transmission line. Buzzer is on for an alert and LCD display type of fault. SMS will be sent on the authority mobile. The fourth case is line to line fault. So, if we short line red with line green at six KM to create a line to line fault. In this situation the system detect current in line red and current in line green is greater than the pickup current so release break or isolate the transmission line. Buzzer is on for an alert and LCD display type of fault. SMS will be sent on the authority mobile</em>
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Dr., P. W. Raut, Chandrayan Ishwari, Jain Rishika, Sawale Pratiksha, Potturi Ritika, and Ujjainkar Aishwarya. "Remote Patient Health Monitoring using IoT." International Journal of Innovative Science and Research Technology 7, no. 3 (2022): 1471–73. https://doi.org/10.5281/zenodo.6499662.
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The motive of our project is to measure two parameters of patient .We have measured body temperature and heart rate using arduino and GSM module. Heart rate can be measured using pulse sensor and body temperature can be measured using LM35 sensor. The pulse sensor is basically used to show the readings in BPM (Beat Per Minute) and the body temperature will be displayed on the connected LCD along with BPM readings. And the displayed output will be sent to the registered mobile number using GSM module. With the implementation of this project we can measure body temperature and heart rate using GSM module and arduino and send the output to the registered mobile number of doctor by indicating whether the temperature and BPM is high, normal or low.
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Meri Kishore, Mr U., G. Geetha, C. Chowdeswari, G. Rajeswar Reddy, and D. L. Dinesh Kumar. "Smart Surveillance System for Railway Track Safety Using Esp32-Cam." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 04 (2025): 1–9. https://doi.org/10.55041/ijsrem43719.
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Railway safety is a critical concern, requiring continuous monitoring of track integrity to prevent derailments and accidents. This project proposes an AI-Based Railway Track Detection System that utilizes Arduino Uno and ESP32-CAM as the primary controllers, along with GSM and GPS modules for real-time communication[1][4].The system employs two IR sensors (IR1 & IR2), positioned on either side of the railway track, to monitor track alignment. In the event of track displacement or breakage, the system triggers the ESP32-CAM[4], which captures and transmits real-time footage of the affected area. Simultaneously, an alert message containing the precise GPS coordinates is sent via the GSM module to an authorized mobile device[2], enabling immediate response and inspection. KEYWORDS- IR Sensors, Arduino Uno, GPS, GSM, ESP32CAM, motor driver.
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Susilo, Renintha, Muhammad Gibran, Fathan Akbar, and Heny Ispur Pratiwi. "Prototipe Sistem Notifikasi Banjir Menggunakan Arduino Uno Dan Gsm Modul Untuk Warga Universitas Pembangunan Jaya Kampus Bintaro." WIDYAKALA JOURNAL 5, no. 2 (2019): 97. http://dx.doi.org/10.36262/widyakala.v5i2.115.
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Tingkat genangan hasil curah air hujan di area akses masuk dan keluar kampus Universitas Pembangunan Jaya (UPJ) dari atau menuju lingkar jalan raya Bintaro Xchange Mall (tepatnya di Jalan Bakti Karya) bisa mencapai lebih dari 35 cm, angka ketinggian tersebut sudah merendam separuh diameter ban motor ukuran normal, sehingga akan mengganggu kelancaran aktivitas akademik UPJ. Sebuah purwarupa sudah dirancang bangun berbasis mikrokontroler Arduino Uno, GSM Modul untuk membantu memberi notifikasi para warga UPJ tentang kondisi tingkat genangan volume airpada jalan akses tersebut melalui sistem SMS terdaftar, sehingga warga UPJ tidak terjebak di area tersebut.Kata Kunci : Arduino Uno, GSM Modul, Water Level Senso
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IUJĂ, Ana-Maria, and Marian ALEXANDRU. "MAKING A VOICE CALL USING ARDUINO UNO R3 AND GSM GPRS SHIELD A-GSM v2.68." Review of the Air Force Academy 14, no. 2 (2016): 133–36. http://dx.doi.org/10.19062/1842-9238.2016.14.2.16.
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Fizza, Hamid*1 &. Nusrat Hamid Shah2. "WIRELESS NOTICE BOARD BASED ON ARDUINO AND GSM TECHNOLOGY." INTERNATIONAL JOURNAL OF ENGINEERING SCIENCES & RESEARCH TECHNOLOGY 7, no. 2 (2018): 141–44. https://doi.org/10.5281/zenodo.1165746.
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This paper deals with an interesting and innovative manner of displaying messages on an electronic display board using wireless technology. Notice boards are one of the basic things in any organisation or public utility places likes hospitals, airports, bus stations, railway stations, shopping malls and parks. It is time consuming and tedious process to manually write down the different notices every now and then. To overcome the problem, the idea of wireless digital display board has been proposed in this paper. The key objective of this project is to develop a notice board that receives and displays messages from an authentic user from anywhere in the world using GSM technology. The SIM card loaded in the GSM module fitted with the wireless display board receives messages from authorized user having a mobile phone. The received message is then displayed on the wireless notice board making the whole process easy and fast. Thus the authentic users can send messages from any corner of the world to be displayed on the notice board using GSM technology.
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Rajani Devi, M., and V. Jyothi. "Accident & Alcohol Detection Surveillance Robot." Journal of Physics: Conference Series 2089, no. 1 (2021): 012065. http://dx.doi.org/10.1088/1742-6596/2089/1/012065.
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Abstract Nowadays in India many accidents are occurred due drunk and drive. So, we have made a project to resolve and predict these incidents, in which we used Arduino, Alcohol sensor, GSM and GPS modules. Here the Alcohol sensor is placed inside the car which will detect whether the driver of the car has drunk or not. If the driver is drunk then the Alcohol sensor will get triggered and the car engine will not turn ON or it will OFF the engine if it is already in ON state. Here the other two modules which are GSM and GPS. If the car has met with an accident the limit switch which is present inside the car will trigger the Arduino by which an SMS will be sent to the particular contacts which are been saved in the Arduino program. The GPS will be connected to the number of satellites so that when the car met with the accident the live location of the car will be sent to the contact through the GSM module. This entire setup of GPS and GSM will be kept inside the car. This entire project can reduce the accidents which are occurred by the drunk and drive and dead corners and also predict the location of the accidents. It results in increasing the human safety and protection
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Nanthini S and R. Vadivel. "Smart spirits: an integrated IoT-based liquor and health monitoring system." World Journal of Advanced Research and Reviews 21, no. 3 (2024): 752–63. http://dx.doi.org/10.30574/wjarr.2024.21.3.0726.
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This project entails the development of a comprehensive health monitoring system utilizing Arduino Uno, a range of sensors (including alcohol, pulse, and DHT11), an LCD display, and a GSM module for data transmission to the Thingspeak application. Its objective is to monitor vital health parameters such as temperature, humidity, pulse rate, and alcohol levels in real-time, accessible via the Thingspeak mobile app. Key components include an Arduino Uno microcontroller, DHT11 sensor for temperature and humidity, pulse sensor for heart rate, alcohol sensor for detecting alcohol levels, LCD display for immediate feedback, and a GSM module for remote data transmission. The user-friendly Thingspeak app serves as an interface for seamless health metric monitoring. The system operates by collecting sensor data, displaying it locally on the LCD screen, and simultaneously transmitting it to the Thingspeak app via GSM communication. Users can then access the app to visualize and monitor their health metrics in real-time, allowing for prompt interventions or medical assistance if needed. The code implementation integrates sensor readings, LCD display control, and Thingspeak functionality. Leveraging Thingspeak's cloud-based platform enhances usability and accessibility, making remote health monitoring feasible. This system offers a versatile solution for individuals looking to efficiently track and manage their well-being, thanks to the integration of Arduino Uno, sensors, Thingspeak features, and GSM communication, making it suitable for both local and remote health monitoring applications.
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Nanthini, S., and Vadivel R. "Smart spirits: an integrated IoT-based liquor and health monitoring system." World Journal of Advanced Research and Reviews 21, no. 3 (2024): 752–63. https://doi.org/10.5281/zenodo.14060584.
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This project entails the development of a comprehensive health monitoring system utilizing Arduino Uno, a range of sensors (including alcohol, pulse, and DHT11), an LCD display, and a GSM module for data transmission to the Thingspeak application. Its objective is to monitor vital health parameters such as temperature, humidity, pulse rate, and alcohol levels in real-time, accessible via the Thingspeak mobile app. Key components include an Arduino Uno microcontroller, DHT11 sensor for temperature and humidity, pulse sensor for heart rate, alcohol sensor for detecting alcohol levels, LCD display for immediate feedback, and a GSM module for remote data transmission. The user-friendly Thingspeak app serves as an interface for seamless health metric monitoring. The system operates by collecting sensor data, displaying it locally on the LCD screen, and simultaneously transmitting it to the Thingspeak app via GSM communication. Users can then access the app to visualize and monitor their health metrics in real-time, allowing for prompt interventions or medical assistance if needed. The code implementation integrates sensor readings, LCD display control, and Thingspeak functionality. Leveraging Thingspeak's cloud-based platform enhances usability and accessibility, making remote health monitoring feasible. This system offers a versatile solution for individuals looking to efficiently track and manage their well-being, thanks to the integration of Arduino Uno, sensors, Thingspeak features, and GSM communication, making it suitable for both local and remote health monitoring applications.
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Bolke, Omkar. "Smart Trolley Using RFID & GSM." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem32226.
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A supermarket or a hypermarket is a form where wide variety of product items is available. Food, drinks, or any kind of domestic item might be included in this product category. Supermarkets' primary goals are to save customers time and ensure that all products are readily available. However, occasionally, customers become impatient while standing in line at the billing counter, and occasionally they become perplexed when comparing the total cost of all the products to their pre-billed budget. We have used Arduino to develop a smart trolley to solve these issues. The smart trolley system exists in the market, while our system has GSM technology which directly sends the shopping bill to your registered mobile number. Customers no longer have to wait in line to have their product items scanned for invoicing purposes thanks to this technology. If not, it functions just like a standard trolley. This tactic is used by hypermarkets and supermarkets as a way to draw in more consumers. In this project we are using Arduino uno r3 Board, lcd display and rf-id module. When the person wants any item must and should show the item to reader. RFID reader will read that number and compares that number in to the internal database and display the amount on to the lcd display. We can continuously add the item in to the trolley. Otherwise, if we are not interested any item we can show the same item to the reader. RFID reader will detect card and erase the item. lcd display will show the amount and item in trolley. Keywords: Radio Frequency Identification (RFID), Arduino, RFID reader and Supermarkets.
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Rao, Prof G. Raja. "GAS LEVEL MONITORING AND ALERTING WITH GAS LEAKAGE." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem31219.
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The project aims in designing a Gas cylinder level monitoring and Gas leakage detection also alerting system using GSM technology. This system capable of detecting the Gas in the cylinder according to weight and display onLCD. Also, this system will activate the buzzer and sensing the alert SMS to the predefine mobile number through GSM if the cylinder weight crosses the set limit or if the system detects the gas leakage.This project makes a use Arduino NANO Microcontroller which is used to interface with input and output modules. Continuous weight monitoring of Gas cylinder using load cell and will be display on LCD. LOW level Gas alerts using Buzzer and SMS. GSM module is used to send the alert SMS to the user mobile. GAS sensor is used to detect the GAS.The main controlling device of the project is ARDUINO NANO Microcontroller.
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Sipani, Jay P., Riki H. Patel, Trushit Upadhyahya, and Arpan Desai. "Wireless Sensor Network for Monitoring & Control of Environmental Factors using Arduino." International Journal of Interactive Mobile Technologies (iJIM) 12, no. 2 (2018): 15. http://dx.doi.org/10.3991/ijim.v12i2.7415.
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<strong><em>Today there is demand to monitor environmental factors almost in all research institutes and industries and even for domestic uses. The analog data measurement requires manual effort to note readings and there may be a possibility of human error. Such type of systems fail to provide and store precise values of parameters with high accuracy. Analog systems are having drawback of storage/memory. Therefore, there is a requirement of a smart system which is fully automated, accurate and capable enough to monitor all the environmental parameters with utmost possible accuracy. Besides, it should be cost-effective as well as portable too. This paper represents the Wireless Sensor(WS) data communication using DHT11, Arduino, SIM900A GSM module, a mobile device and Liquid Crystal Display(LCD). Experimental setup includes the heating arrangement of DHT11 and transmission of its data using Arduino and SIM900A GSM shield. The mobile device receives the data using Arduino, GSM shield and displays it on LCD too. Heating arrangement is used to heat and cool the temperature sensor to study its characteristics.</em></strong>
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OE Ikpenyi, OE Abumere, and JA Amusan. "Construction of GSM based home security alert system using passive infrared sensor." World Journal of Advanced Research and Reviews 14, no. 2 (2022): 648–57. http://dx.doi.org/10.30574/wjarr.2022.14.2.0447.
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Security challenges in Nigeria specifically and the world everywhere have become the best difficulties of man in the ongoing occasions, because of the rising paces of wrongdoings like robberies, theft, seizing, executing and furnished burglary. The point of this undertaking was to develop a GSM based home security alert system, that will be fit for identifying an interloper, send ready message to mortgage holder, and initiate a bell caution. The security ready framework has been effectively built utilizing a uninvolved infrared (PIR ) sensor. Arduino microcontroller was utilized to interface between the PIR sensor (input) and the GSM/buzzer (yield) gadgets. The PIR sensor was proposed to recognize the nearness of human and convert the identified sign into electrical voltage signal. The arduino uno was to process the flag and send directions to GSM module and buzzer, at the same time. The developed gadget was tried by enabling human to move before the PIR sensor and the GSM module sent an instant message to the mortgage holder, that there is an intruder, while the ringer sounded simultaneously, affirming its usefulness.