Design, construction, and implementation of a remote fuel-level monitoring system

Obikoya, Gbenga Daniel

doi:10.1186/1687-1499-2014-76

Cited by 15 publications

(4 citation statements)

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“…The system's overall goal is to improve fuel management's security, accountability, and transparency. 2) Obikoya and Gbenga have suggested a system [2] with the goal of creating a fuel-level monitoring system that combines an Aplicom 12 GSM module configuration with a developed sensor. This enables control signals transmitted from a mobile device to enable remote fuel monitoring.…”

Section: IImentioning

confidence: 99%

Diesel Level Monitoring System

Sondkar,

Patil,

Bhosale

et al. 2024

IJRASET

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The ultimate objective of this project is to create a wireless diesel tank monitoring system that employs WebSocket protocol to connect fuel sensors and a mobile app in remote areas in real time. Through the use of Wi-Fi networks, customers can obtain consumption information, monitor the current diesel levels in various tanks, and log in to the mobile app, which has a straightforward interface. Diesel levels are shown as a percentage, translated from voltage readings, and alerts are delivered by the system when levels drop below preset limits. The goal of this effective and user-friendly technology is to maximize the use of diesel and make timely refills in distant places easier. A reliable and smooth solution for diesel level monitoring is made possible by the integration of the ESP32 microcontroller, WebSocket connection, and capacitive fuel level sensor. Accurate mapping of sensor readings to ESP32 values is made possible by the use of a 20k ohm potentiometer, which guarantees accurate and dependable data transfer. This work advances the area of remote monitoring systems by providing a workable and expandable method for monitoring diesel level in a variety of applications.

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Section: IImentioning

confidence: 99%

Diesel Level Monitoring System

Sondkar,

Patil,

Bhosale

et al. 2024

IJRASET

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“…GPRS coding plans via CS-1, CS-2, CS-3 also, CS-4 [2][3][4][5][6][7]. In this work utilized AVR microcontroller AT mega 32.…”

Section: Literature Reviewmentioning

confidence: 99%

Automatic Fuel Monitoring System

2019

IJRTE

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This proposed methodology is derived for automatic fuel level measurement by smart device. The discovery of automobile vehicles is a blessing to human beings from engineering and science. The majority of the transport fuels are powered by traditional fuels like gasoline, octane, diesel etc. The price of these transport fuels are also increasing. The objective of this project is to describe the automatic prevention of fuel theft by the drivers and also we are going to bring solution for how accurately the petrol bunk is filling the fuel for your vehicles. The advantage of our project is we also done with fuel indication system. Whenever liquid level goes high or low it will indicate by an alarm signal. When the flow rate or fuel consumption rate becomes more than usual rate the fuel level falls drastically then the sensor is activated and sends a signal. After receiving the signal the GSM module sends a message to a specific number by indicating something unusual. It is also been found that it is low cost technology and it can also be implemented in all the vehicles.

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“…The ultrasonic sensor is an obstacle detection device that finds application in measuring depths, variations of wavelengths, underwater, and sewage blockage detection. The system can further be enhanced to achieve real-time tracking and localization capabilities when interfaced with a GSM/GPRS/GPS module, a controller [9], and the Internet of Things (IoT) enabled monitoring devices [10], [11]. The obstacle sensation obtained from the echo terminal of the ultrasonic sensor after transmitting high-frequency sonar waves is processed in the microcontroller to calculate its time interval and distance to the obstacle.…”

Section: Introductionmentioning

confidence: 99%

Design of an Obstacle and Location-Based Detector with Microcontroller System

O.Owojori

Mebawondu

2021

EJECE

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Out of seven billion of the world’s population, two billion and two million that amounts to 31.43% have visual impairment or blindness according to the World Health Organization (WHO) statistics report. Hence, the need to develop a wearable device with reduced size, efficient power usage, and for more comfortability of the visually impaired or blind people. This work aims at designing an obstacle detection system using an ultrasonic sensor interfaced with an Arduino board to track location, alert patient, and send location messages of visually impaired patient to guardians as a feedback mechanism using a GPRS and GSM module. The C programming language was used as the instruction code to interface Arduino device to carry out given tasks. At the design level, the circuit was first tested on Proteus software for simulation purposes before its hardware implementation. The results obtained from the test show the variation of distance as the patient approaches the obstacle, and messages received when a fix was obtained. This design concept would help reduce danger across the way of those with sight defects and allow them to go to familiar places without any aid smoothly.

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Design, construction, and implementation of a remote fuel-level monitoring system

Cited by 15 publications

References 0 publications

Diesel Level Monitoring System

Diesel Level Monitoring System

Automatic Fuel Monitoring System

Design of an Obstacle and Location-Based Detector with Microcontroller System

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