Designing and developing an advanced drone for conducting precise surveys and measurements of agricultural fields. Project goals include developing an advanced measurement system to store spectral data, maintaining accuracy and reliability. Key challenges include designing a small and user-friendly device, precise voltage conversion, and effective integration of the ESP32 system.
With the advancement of technology and the increasing agricultural needs, there is a growing demand for innovative solutions to improve efficiency and precision in managing agricultural fields and land.
This project focuses on the design and development of an advanced aerial tool – a drone – capable of conducting precise surveys and measurements of agricultural fields and lands, efficiently covering extensive areas with advanced electrical components.
The project’s objectives include designing and building an advanced measurement system to be installed on the drone, intended for storing diverse spectral data. Additionally, developing the system to be small, lightweight, and low-power consuming to ensure efficiency and effectiveness during prolonged flights.
Moreover, integrating advanced technologies for collecting and analyzing spectral data while maintaining measurement accuracy and reliability. Key challenges of the project include designing a small and lightweight device, ease of use, precise voltage conversion, and effective integration of the ESP32 with other system components.
The project’s process includes studying the characteristics of the components, building an amplifier, designing components, soldering the circuits, and performing voltage tests using Arduino.
