REAL-TIME ROAD MONITORING SYSTEM

The fundamental aim of the project is to create a system that effectively monitors the conditions of the roads on which the vehicle is traveling and generates values for the sensors to help the system store the data on the cloud server. The values of latitude, longitude, and speed of the vehicle wil

Project Title

REAL-TIME ROAD MONITORING SYSTEM

Project Area of Specialization

Computer Science

Project Summary

The fundamental aim of the project is to create a system that effectively monitors the conditions of the roads on which the vehicle is traveling and generates values for the sensors to help the system store the data on the cloud server. The values of latitude, longitude, and speed of the vehicle will be displayed through the smartphone application. The need to create this system arose when the people of both rural and urban areas faced a tormenting situation due to the worse conditions of the roads and this situation was also affecting our economy in many ways. Therefore, this system was able to cater to the problem to a certain extent by generating a graph of the data of those roads on which is traveling. An additional feature is that the blynk platform is used which will help in the live location tracking of the vehicle. Moreover, the best feature is that the data collected by the system will be saved to the cloud server for two reasons i.e. the data would be available for use to the government regulatory bodies.

Project Objectives

• The main objective of this project is to provide data on road conditions and their location to avoid that road in the future.

• This project can be used to track the live location of the vehicle.

• To monitor the speed breakers and uneven road surfaces.

• To avoid speeding on that road

Project Implementation Method

• GPS module neo 6m will detect the location of the vehicle and gives data to microcontroller node MCU.

• Vibration sensors monitor the uneven road surfaces and give analog values to the microcontroller. 

• According to sensor values uploaded, the BLYNK cloud graph generates the values and data in BLYNK mobile app.

• Real-time data will show in BLYNK app.

• Live location can be monitored through the app.

Benefits of the Project

• Navigation regarding best routes

• Safety and security

• Customization as per your convenience

• Abstracting time information

• Priority-based scheduling

Technical Details of Final Deliverable

Prototype

Final Deliverable of the Project

HW/SW integrated system

Core Industry

Education

Other Industries

Core Technology

Internet of Things (IoT)

Other Technologies

Sustainable Development Goals

Required Resources

If you need this project, please contact me on contact@adikhanofficial.com