Description:The Aerial Gas Station System represents a groundbreaking invention that seamlessly integrates cutting-edge drone technology with a user-friendly mobile application to revolutionize the conventional refueling experience. This innovative solution begins with users initiating a fuel delivery request through the intuitive mobile app, specifying their precise location and fuel requirements. Upon confirmation, a specially designed drone is dispatched from the nearest aerial gas station, equipped with a secure and specialized fuel tank. The tank incorporates a robust verification process to ensure authorized fuel release, maintaining a secure and controlled operation. Once authenticated, the fuel tank opens, allowing users to conveniently refuel their vehicles. The system meticulously calculates the dispensed fuel quantity, generating a transparent payment request through the integrated mobile payment gateway. Users receive real-time information on the fuel cost, and upon payment confirmation, the drone autonomously returns to the gas station, marking the completion of a swift, efficient, and user-centric fuel delivery process. This invention not only addresses on-road fuel emergencies with rapid response times but also sets a new standard for technological advancement and convenience in the realm of transportation services. , Claims:We claim,
1. A method for on-demand fuel delivery utilizing unmanned aerial vehicles (drones), comprising the steps of receiving a fuel delivery request from a user through a mobile application, dispatching a drone equipped with a specialized fuel tank to the user's location, and authenticating the fuel dispensing process through an on-board keypad using a one-time password (OTP) generated by the mobile application.
In addition to claim 1
2. A secure fuel dispensing system for unmanned aerial vehicles, comprising a fuel tank with an on-board keypad for OTP verification, wherein the system further calculates the quantity of fuel dispensed during a refueling operation and generates a payment request through an integrated payment gateway within the mobile application.
In addition to claim 2
3. A mobile application for on-demand fuel delivery, incorporating geolocation services to accurately determine a user's location, generating and transmitting a one-time password (OTP) for secure authentication, and facilitating payment processing through an integrated payment gateway for the dispensed fuel quantity.
In addition to claim 3
4. An unmanned aerial vehicle (drone) designed for fuel delivery, featuring a specialized fuel tank with an on-board keypad for secure one-time password (OTP) verification, ensuring authorized access to the fuel dispensing mechanism during on-demand deliveries.
In addition to claim 4
5. A method for calculating the cost of dispensed fuel during an on-demand drone-based fuel delivery, wherein the system computes the price based on the quantity of fuel dispensed, and subsequently generates a payment request for the user through an integrated payment gateway within the mobile application.